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hxgksystemapp/node_modules/slate/dist/slate.js

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(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.Slate = {}));
}(this, (function (exports) { 'use strict';
function unwrapExports (x) {
return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, 'default') ? x['default'] : x;
}
function createCommonjsModule(fn, module) {
return module = { exports: {} }, fn(module, module.exports), module.exports;
}
var arrayLikeToArray = createCommonjsModule(function (module) {
function _arrayLikeToArray(arr, len) {
if (len == null || len > arr.length) len = arr.length;
for (var i = 0, arr2 = new Array(len); i < len; i++) {
arr2[i] = arr[i];
}
return arr2;
}
module.exports = _arrayLikeToArray;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(arrayLikeToArray);
var arrayWithoutHoles = createCommonjsModule(function (module) {
function _arrayWithoutHoles(arr) {
if (Array.isArray(arr)) return arrayLikeToArray(arr);
}
module.exports = _arrayWithoutHoles;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(arrayWithoutHoles);
var iterableToArray = createCommonjsModule(function (module) {
function _iterableToArray(iter) {
if (typeof Symbol !== "undefined" && iter[Symbol.iterator] != null || iter["@@iterator"] != null) return Array.from(iter);
}
module.exports = _iterableToArray;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(iterableToArray);
var unsupportedIterableToArray = createCommonjsModule(function (module) {
function _unsupportedIterableToArray(o, minLen) {
if (!o) return;
if (typeof o === "string") return arrayLikeToArray(o, minLen);
var n = Object.prototype.toString.call(o).slice(8, -1);
if (n === "Object" && o.constructor) n = o.constructor.name;
if (n === "Map" || n === "Set") return Array.from(o);
if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return arrayLikeToArray(o, minLen);
}
module.exports = _unsupportedIterableToArray;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(unsupportedIterableToArray);
var nonIterableSpread = createCommonjsModule(function (module) {
function _nonIterableSpread() {
throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
module.exports = _nonIterableSpread;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(nonIterableSpread);
var toConsumableArray = createCommonjsModule(function (module) {
function _toConsumableArray(arr) {
return arrayWithoutHoles(arr) || iterableToArray(arr) || unsupportedIterableToArray(arr) || nonIterableSpread();
}
module.exports = _toConsumableArray;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
var _toConsumableArray = unwrapExports(toConsumableArray);
var arrayWithHoles = createCommonjsModule(function (module) {
function _arrayWithHoles(arr) {
if (Array.isArray(arr)) return arr;
}
module.exports = _arrayWithHoles;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(arrayWithHoles);
var iterableToArrayLimit = createCommonjsModule(function (module) {
function _iterableToArrayLimit(arr, i) {
var _i = arr == null ? null : typeof Symbol !== "undefined" && arr[Symbol.iterator] || arr["@@iterator"];
if (_i == null) return;
var _arr = [];
var _n = true;
var _d = false;
var _s, _e;
try {
for (_i = _i.call(arr); !(_n = (_s = _i.next()).done); _n = true) {
_arr.push(_s.value);
if (i && _arr.length === i) break;
}
} catch (err) {
_d = true;
_e = err;
} finally {
try {
if (!_n && _i["return"] != null) _i["return"]();
} finally {
if (_d) throw _e;
}
}
return _arr;
}
module.exports = _iterableToArrayLimit;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(iterableToArrayLimit);
var nonIterableRest = createCommonjsModule(function (module) {
function _nonIterableRest() {
throw new TypeError("Invalid attempt to destructure non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
module.exports = _nonIterableRest;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(nonIterableRest);
var slicedToArray = createCommonjsModule(function (module) {
function _slicedToArray(arr, i) {
return arrayWithHoles(arr) || iterableToArrayLimit(arr, i) || unsupportedIterableToArray(arr, i) || nonIterableRest();
}
module.exports = _slicedToArray;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
var _slicedToArray = unwrapExports(slicedToArray);
var defineProperty = createCommonjsModule(function (module) {
function _defineProperty(obj, key, value) {
if (key in obj) {
Object.defineProperty(obj, key, {
value: value,
enumerable: true,
configurable: true,
writable: true
});
} else {
obj[key] = value;
}
return obj;
}
module.exports = _defineProperty;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
var _defineProperty = unwrapExports(defineProperty);
var DIRTY_PATHS = new WeakMap();
var DIRTY_PATH_KEYS = new WeakMap();
var FLUSHING = new WeakMap();
var NORMALIZING = new WeakMap();
var PATH_REFS = new WeakMap();
var POINT_REFS = new WeakMap();
var RANGE_REFS = new WeakMap();
function ownKeys$9(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$9(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$9(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$9(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _createForOfIteratorHelper$7(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$7(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$7(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$7(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$7(o, minLen); }
function _arrayLikeToArray$7(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
/**
* Create a new Slate `Editor` object.
*/
var createEditor = function createEditor() {
var editor = {
children: [],
operations: [],
selection: null,
marks: null,
isInline: function isInline() {
return false;
},
isVoid: function isVoid() {
return false;
},
onChange: function onChange() {},
apply: function apply(op) {
var _iterator = _createForOfIteratorHelper$7(Editor.pathRefs(editor)),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var ref = _step.value;
PathRef.transform(ref, op);
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
var _iterator2 = _createForOfIteratorHelper$7(Editor.pointRefs(editor)),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var _ref = _step2.value;
PointRef.transform(_ref, op);
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
var _iterator3 = _createForOfIteratorHelper$7(Editor.rangeRefs(editor)),
_step3;
try {
for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) {
var _ref2 = _step3.value;
RangeRef.transform(_ref2, op);
}
} catch (err) {
_iterator3.e(err);
} finally {
_iterator3.f();
}
var oldDirtyPaths = DIRTY_PATHS.get(editor) || [];
var oldDirtyPathKeys = DIRTY_PATH_KEYS.get(editor) || new Set();
var dirtyPaths;
var dirtyPathKeys;
var add = function add(path) {
if (path) {
var key = path.join(',');
if (!dirtyPathKeys.has(key)) {
dirtyPathKeys.add(key);
dirtyPaths.push(path);
}
}
};
if (Path.operationCanTransformPath(op)) {
dirtyPaths = [];
dirtyPathKeys = new Set();
var _iterator4 = _createForOfIteratorHelper$7(oldDirtyPaths),
_step4;
try {
for (_iterator4.s(); !(_step4 = _iterator4.n()).done;) {
var path = _step4.value;
var newPath = Path.transform(path, op);
add(newPath);
}
} catch (err) {
_iterator4.e(err);
} finally {
_iterator4.f();
}
} else {
dirtyPaths = oldDirtyPaths;
dirtyPathKeys = oldDirtyPathKeys;
}
var newDirtyPaths = getDirtyPaths(op);
var _iterator5 = _createForOfIteratorHelper$7(newDirtyPaths),
_step5;
try {
for (_iterator5.s(); !(_step5 = _iterator5.n()).done;) {
var _path = _step5.value;
add(_path);
}
} catch (err) {
_iterator5.e(err);
} finally {
_iterator5.f();
}
DIRTY_PATHS.set(editor, dirtyPaths);
DIRTY_PATH_KEYS.set(editor, dirtyPathKeys);
Transforms.transform(editor, op);
editor.operations.push(op);
Editor.normalize(editor); // Clear any formats applied to the cursor if the selection changes.
if (op.type === 'set_selection') {
editor.marks = null;
}
if (!FLUSHING.get(editor)) {
FLUSHING.set(editor, true);
Promise.resolve().then(function () {
FLUSHING.set(editor, false);
editor.onChange();
editor.operations = [];
});
}
},
addMark: function addMark(key, value) {
var selection = editor.selection;
if (selection) {
if (Range.isExpanded(selection)) {
Transforms.setNodes(editor, _defineProperty({}, key, value), {
match: Text.isText,
split: true
});
} else {
var marks = _objectSpread$9(_objectSpread$9({}, Editor.marks(editor) || {}), {}, _defineProperty({}, key, value));
editor.marks = marks;
if (!FLUSHING.get(editor)) {
editor.onChange();
}
}
}
},
deleteBackward: function deleteBackward(unit) {
var selection = editor.selection;
if (selection && Range.isCollapsed(selection)) {
Transforms["delete"](editor, {
unit: unit,
reverse: true
});
}
},
deleteForward: function deleteForward(unit) {
var selection = editor.selection;
if (selection && Range.isCollapsed(selection)) {
Transforms["delete"](editor, {
unit: unit
});
}
},
deleteFragment: function deleteFragment(direction) {
var selection = editor.selection;
if (selection && Range.isExpanded(selection)) {
Transforms["delete"](editor, {
reverse: direction === 'backward'
});
}
},
getFragment: function getFragment() {
var selection = editor.selection;
if (selection) {
return Node.fragment(editor, selection);
}
return [];
},
insertBreak: function insertBreak() {
Transforms.splitNodes(editor, {
always: true
});
},
insertFragment: function insertFragment(fragment) {
Transforms.insertFragment(editor, fragment);
},
insertNode: function insertNode(node) {
Transforms.insertNodes(editor, node);
},
insertText: function insertText(text) {
var selection = editor.selection,
marks = editor.marks;
if (selection) {
if (marks) {
var node = _objectSpread$9({
text: text
}, marks);
Transforms.insertNodes(editor, node);
} else {
Transforms.insertText(editor, text);
}
editor.marks = null;
}
},
normalizeNode: function normalizeNode(entry) {
var _entry = _slicedToArray(entry, 2),
node = _entry[0],
path = _entry[1]; // There are no core normalizations for text nodes.
if (Text.isText(node)) {
return;
} // Ensure that block and inline nodes have at least one text child.
if (Element.isElement(node) && node.children.length === 0) {
var child = {
text: ''
};
Transforms.insertNodes(editor, child, {
at: path.concat(0),
voids: true
});
return;
} // Determine whether the node should have block or inline children.
var shouldHaveInlines = Editor.isEditor(node) ? false : Element.isElement(node) && (editor.isInline(node) || node.children.length === 0 || Text.isText(node.children[0]) || editor.isInline(node.children[0])); // Since we'll be applying operations while iterating, keep track of an
// index that accounts for any added/removed nodes.
var n = 0;
for (var i = 0; i < node.children.length; i++, n++) {
var currentNode = Node.get(editor, path);
if (Text.isText(currentNode)) continue;
var _child = node.children[i];
var prev = currentNode.children[n - 1];
var isLast = i === node.children.length - 1;
var isInlineOrText = Text.isText(_child) || Element.isElement(_child) && editor.isInline(_child); // Only allow block nodes in the top-level children and parent blocks
// that only contain block nodes. Similarly, only allow inline nodes in
// other inline nodes, or parent blocks that only contain inlines and
// text.
if (isInlineOrText !== shouldHaveInlines) {
Transforms.removeNodes(editor, {
at: path.concat(n),
voids: true
});
n--;
} else if (Element.isElement(_child)) {
// Ensure that inline nodes are surrounded by text nodes.
if (editor.isInline(_child)) {
if (prev == null || !Text.isText(prev)) {
var newChild = {
text: ''
};
Transforms.insertNodes(editor, newChild, {
at: path.concat(n),
voids: true
});
n++;
} else if (isLast) {
var _newChild = {
text: ''
};
Transforms.insertNodes(editor, _newChild, {
at: path.concat(n + 1),
voids: true
});
n++;
}
}
} else {
// Merge adjacent text nodes that are empty or match.
if (prev != null && Text.isText(prev)) {
if (Text.equals(_child, prev, {
loose: true
})) {
Transforms.mergeNodes(editor, {
at: path.concat(n),
voids: true
});
n--;
} else if (prev.text === '') {
Transforms.removeNodes(editor, {
at: path.concat(n - 1),
voids: true
});
n--;
} else if (_child.text === '') {
Transforms.removeNodes(editor, {
at: path.concat(n),
voids: true
});
n--;
}
}
}
}
},
removeMark: function removeMark(key) {
var selection = editor.selection;
if (selection) {
if (Range.isExpanded(selection)) {
Transforms.unsetNodes(editor, key, {
match: Text.isText,
split: true
});
} else {
var marks = _objectSpread$9({}, Editor.marks(editor) || {});
delete marks[key];
editor.marks = marks;
if (!FLUSHING.get(editor)) {
editor.onChange();
}
}
}
}
};
return editor;
};
/**
* Get the "dirty" paths generated from an operation.
*/
var getDirtyPaths = function getDirtyPaths(op) {
switch (op.type) {
case 'insert_text':
case 'remove_text':
case 'set_node':
{
var path = op.path;
return Path.levels(path);
}
case 'insert_node':
{
var node = op.node,
_path2 = op.path;
var levels = Path.levels(_path2);
var descendants = Text.isText(node) ? [] : Array.from(Node.nodes(node), function (_ref3) {
var _ref4 = _slicedToArray(_ref3, 2),
p = _ref4[1];
return _path2.concat(p);
});
return [].concat(_toConsumableArray(levels), _toConsumableArray(descendants));
}
case 'merge_node':
{
var _path3 = op.path;
var ancestors = Path.ancestors(_path3);
var previousPath = Path.previous(_path3);
return [].concat(_toConsumableArray(ancestors), [previousPath]);
}
case 'move_node':
{
var _path4 = op.path,
newPath = op.newPath;
if (Path.equals(_path4, newPath)) {
return [];
}
var oldAncestors = [];
var newAncestors = [];
var _iterator6 = _createForOfIteratorHelper$7(Path.ancestors(_path4)),
_step6;
try {
for (_iterator6.s(); !(_step6 = _iterator6.n()).done;) {
var ancestor = _step6.value;
var p = Path.transform(ancestor, op);
oldAncestors.push(p);
}
} catch (err) {
_iterator6.e(err);
} finally {
_iterator6.f();
}
var _iterator7 = _createForOfIteratorHelper$7(Path.ancestors(newPath)),
_step7;
try {
for (_iterator7.s(); !(_step7 = _iterator7.n()).done;) {
var _ancestor = _step7.value;
var _p = Path.transform(_ancestor, op);
newAncestors.push(_p);
}
} catch (err) {
_iterator7.e(err);
} finally {
_iterator7.f();
}
var newParent = newAncestors[newAncestors.length - 1];
var newIndex = newPath[newPath.length - 1];
var resultPath = newParent.concat(newIndex);
return [].concat(oldAncestors, newAncestors, [resultPath]);
}
case 'remove_node':
{
var _path5 = op.path;
var _ancestors = Path.ancestors(_path5);
return _toConsumableArray(_ancestors);
}
case 'split_node':
{
var _path6 = op.path;
var _levels = Path.levels(_path6);
var nextPath = Path.next(_path6);
return [].concat(_toConsumableArray(_levels), [nextPath]);
}
default:
{
return [];
}
}
};
var objectWithoutPropertiesLoose = createCommonjsModule(function (module) {
function _objectWithoutPropertiesLoose(source, excluded) {
if (source == null) return {};
var target = {};
var sourceKeys = Object.keys(source);
var key, i;
for (i = 0; i < sourceKeys.length; i++) {
key = sourceKeys[i];
if (excluded.indexOf(key) >= 0) continue;
target[key] = source[key];
}
return target;
}
module.exports = _objectWithoutPropertiesLoose;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
unwrapExports(objectWithoutPropertiesLoose);
var objectWithoutProperties = createCommonjsModule(function (module) {
function _objectWithoutProperties(source, excluded) {
if (source == null) return {};
var target = objectWithoutPropertiesLoose(source, excluded);
var key, i;
if (Object.getOwnPropertySymbols) {
var sourceSymbolKeys = Object.getOwnPropertySymbols(source);
for (i = 0; i < sourceSymbolKeys.length; i++) {
key = sourceSymbolKeys[i];
if (excluded.indexOf(key) >= 0) continue;
if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue;
target[key] = source[key];
}
}
return target;
}
module.exports = _objectWithoutProperties;
module.exports["default"] = module.exports, module.exports.__esModule = true;
});
var _objectWithoutProperties = unwrapExports(objectWithoutProperties);
var runtime_1 = createCommonjsModule(function (module) {
/**
* Copyright (c) 2014-present, Facebook, Inc.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
var runtime = (function (exports) {
var Op = Object.prototype;
var hasOwn = Op.hasOwnProperty;
var undefined$1; // More compressible than void 0.
var $Symbol = typeof Symbol === "function" ? Symbol : {};
var iteratorSymbol = $Symbol.iterator || "@@iterator";
var asyncIteratorSymbol = $Symbol.asyncIterator || "@@asyncIterator";
var toStringTagSymbol = $Symbol.toStringTag || "@@toStringTag";
function define(obj, key, value) {
Object.defineProperty(obj, key, {
value: value,
enumerable: true,
configurable: true,
writable: true
});
return obj[key];
}
try {
// IE 8 has a broken Object.defineProperty that only works on DOM objects.
define({}, "");
} catch (err) {
define = function(obj, key, value) {
return obj[key] = value;
};
}
function wrap(innerFn, outerFn, self, tryLocsList) {
// If outerFn provided and outerFn.prototype is a Generator, then outerFn.prototype instanceof Generator.
var protoGenerator = outerFn && outerFn.prototype instanceof Generator ? outerFn : Generator;
var generator = Object.create(protoGenerator.prototype);
var context = new Context(tryLocsList || []);
// The ._invoke method unifies the implementations of the .next,
// .throw, and .return methods.
generator._invoke = makeInvokeMethod(innerFn, self, context);
return generator;
}
exports.wrap = wrap;
// Try/catch helper to minimize deoptimizations. Returns a completion
// record like context.tryEntries[i].completion. This interface could
// have been (and was previously) designed to take a closure to be
// invoked without arguments, but in all the cases we care about we
// already have an existing method we want to call, so there's no need
// to create a new function object. We can even get away with assuming
// the method takes exactly one argument, since that happens to be true
// in every case, so we don't have to touch the arguments object. The
// only additional allocation required is the completion record, which
// has a stable shape and so hopefully should be cheap to allocate.
function tryCatch(fn, obj, arg) {
try {
return { type: "normal", arg: fn.call(obj, arg) };
} catch (err) {
return { type: "throw", arg: err };
}
}
var GenStateSuspendedStart = "suspendedStart";
var GenStateSuspendedYield = "suspendedYield";
var GenStateExecuting = "executing";
var GenStateCompleted = "completed";
// Returning this object from the innerFn has the same effect as
// breaking out of the dispatch switch statement.
var ContinueSentinel = {};
// Dummy constructor functions that we use as the .constructor and
// .constructor.prototype properties for functions that return Generator
// objects. For full spec compliance, you may wish to configure your
// minifier not to mangle the names of these two functions.
function Generator() {}
function GeneratorFunction() {}
function GeneratorFunctionPrototype() {}
// This is a polyfill for %IteratorPrototype% for environments that
// don't natively support it.
var IteratorPrototype = {};
define(IteratorPrototype, iteratorSymbol, function () {
return this;
});
var getProto = Object.getPrototypeOf;
var NativeIteratorPrototype = getProto && getProto(getProto(values([])));
if (NativeIteratorPrototype &&
NativeIteratorPrototype !== Op &&
hasOwn.call(NativeIteratorPrototype, iteratorSymbol)) {
// This environment has a native %IteratorPrototype%; use it instead
// of the polyfill.
IteratorPrototype = NativeIteratorPrototype;
}
var Gp = GeneratorFunctionPrototype.prototype =
Generator.prototype = Object.create(IteratorPrototype);
GeneratorFunction.prototype = GeneratorFunctionPrototype;
define(Gp, "constructor", GeneratorFunctionPrototype);
define(GeneratorFunctionPrototype, "constructor", GeneratorFunction);
GeneratorFunction.displayName = define(
GeneratorFunctionPrototype,
toStringTagSymbol,
"GeneratorFunction"
);
// Helper for defining the .next, .throw, and .return methods of the
// Iterator interface in terms of a single ._invoke method.
function defineIteratorMethods(prototype) {
["next", "throw", "return"].forEach(function(method) {
define(prototype, method, function(arg) {
return this._invoke(method, arg);
});
});
}
exports.isGeneratorFunction = function(genFun) {
var ctor = typeof genFun === "function" && genFun.constructor;
return ctor
? ctor === GeneratorFunction ||
// For the native GeneratorFunction constructor, the best we can
// do is to check its .name property.
(ctor.displayName || ctor.name) === "GeneratorFunction"
: false;
};
exports.mark = function(genFun) {
if (Object.setPrototypeOf) {
Object.setPrototypeOf(genFun, GeneratorFunctionPrototype);
} else {
genFun.__proto__ = GeneratorFunctionPrototype;
define(genFun, toStringTagSymbol, "GeneratorFunction");
}
genFun.prototype = Object.create(Gp);
return genFun;
};
// Within the body of any async function, `await x` is transformed to
// `yield regeneratorRuntime.awrap(x)`, so that the runtime can test
// `hasOwn.call(value, "__await")` to determine if the yielded value is
// meant to be awaited.
exports.awrap = function(arg) {
return { __await: arg };
};
function AsyncIterator(generator, PromiseImpl) {
function invoke(method, arg, resolve, reject) {
var record = tryCatch(generator[method], generator, arg);
if (record.type === "throw") {
reject(record.arg);
} else {
var result = record.arg;
var value = result.value;
if (value &&
typeof value === "object" &&
hasOwn.call(value, "__await")) {
return PromiseImpl.resolve(value.__await).then(function(value) {
invoke("next", value, resolve, reject);
}, function(err) {
invoke("throw", err, resolve, reject);
});
}
return PromiseImpl.resolve(value).then(function(unwrapped) {
// When a yielded Promise is resolved, its final value becomes
// the .value of the Promise<{value,done}> result for the
// current iteration.
result.value = unwrapped;
resolve(result);
}, function(error) {
// If a rejected Promise was yielded, throw the rejection back
// into the async generator function so it can be handled there.
return invoke("throw", error, resolve, reject);
});
}
}
var previousPromise;
function enqueue(method, arg) {
function callInvokeWithMethodAndArg() {
return new PromiseImpl(function(resolve, reject) {
invoke(method, arg, resolve, reject);
});
}
return previousPromise =
// If enqueue has been called before, then we want to wait until
// all previous Promises have been resolved before calling invoke,
// so that results are always delivered in the correct order. If
// enqueue has not been called before, then it is important to
// call invoke immediately, without waiting on a callback to fire,
// so that the async generator function has the opportunity to do
// any necessary setup in a predictable way. This predictability
// is why the Promise constructor synchronously invokes its
// executor callback, and why async functions synchronously
// execute code before the first await. Since we implement simple
// async functions in terms of async generators, it is especially
// important to get this right, even though it requires care.
previousPromise ? previousPromise.then(
callInvokeWithMethodAndArg,
// Avoid propagating failures to Promises returned by later
// invocations of the iterator.
callInvokeWithMethodAndArg
) : callInvokeWithMethodAndArg();
}
// Define the unified helper method that is used to implement .next,
// .throw, and .return (see defineIteratorMethods).
this._invoke = enqueue;
}
defineIteratorMethods(AsyncIterator.prototype);
define(AsyncIterator.prototype, asyncIteratorSymbol, function () {
return this;
});
exports.AsyncIterator = AsyncIterator;
// Note that simple async functions are implemented on top of
// AsyncIterator objects; they just return a Promise for the value of
// the final result produced by the iterator.
exports.async = function(innerFn, outerFn, self, tryLocsList, PromiseImpl) {
if (PromiseImpl === void 0) PromiseImpl = Promise;
var iter = new AsyncIterator(
wrap(innerFn, outerFn, self, tryLocsList),
PromiseImpl
);
return exports.isGeneratorFunction(outerFn)
? iter // If outerFn is a generator, return the full iterator.
: iter.next().then(function(result) {
return result.done ? result.value : iter.next();
});
};
function makeInvokeMethod(innerFn, self, context) {
var state = GenStateSuspendedStart;
return function invoke(method, arg) {
if (state === GenStateExecuting) {
throw new Error("Generator is already running");
}
if (state === GenStateCompleted) {
if (method === "throw") {
throw arg;
}
// Be forgiving, per 25.3.3.3.3 of the spec:
// https://people.mozilla.org/~jorendorff/es6-draft.html#sec-generatorresume
return doneResult();
}
context.method = method;
context.arg = arg;
while (true) {
var delegate = context.delegate;
if (delegate) {
var delegateResult = maybeInvokeDelegate(delegate, context);
if (delegateResult) {
if (delegateResult === ContinueSentinel) continue;
return delegateResult;
}
}
if (context.method === "next") {
// Setting context._sent for legacy support of Babel's
// function.sent implementation.
context.sent = context._sent = context.arg;
} else if (context.method === "throw") {
if (state === GenStateSuspendedStart) {
state = GenStateCompleted;
throw context.arg;
}
context.dispatchException(context.arg);
} else if (context.method === "return") {
context.abrupt("return", context.arg);
}
state = GenStateExecuting;
var record = tryCatch(innerFn, self, context);
if (record.type === "normal") {
// If an exception is thrown from innerFn, we leave state ===
// GenStateExecuting and loop back for another invocation.
state = context.done
? GenStateCompleted
: GenStateSuspendedYield;
if (record.arg === ContinueSentinel) {
continue;
}
return {
value: record.arg,
done: context.done
};
} else if (record.type === "throw") {
state = GenStateCompleted;
// Dispatch the exception by looping back around to the
// context.dispatchException(context.arg) call above.
context.method = "throw";
context.arg = record.arg;
}
}
};
}
// Call delegate.iterator[context.method](context.arg) and handle the
// result, either by returning a { value, done } result from the
// delegate iterator, or by modifying context.method and context.arg,
// setting context.delegate to null, and returning the ContinueSentinel.
function maybeInvokeDelegate(delegate, context) {
var method = delegate.iterator[context.method];
if (method === undefined$1) {
// A .throw or .return when the delegate iterator has no .throw
// method always terminates the yield* loop.
context.delegate = null;
if (context.method === "throw") {
// Note: ["return"] must be used for ES3 parsing compatibility.
if (delegate.iterator["return"]) {
// If the delegate iterator has a return method, give it a
// chance to clean up.
context.method = "return";
context.arg = undefined$1;
maybeInvokeDelegate(delegate, context);
if (context.method === "throw") {
// If maybeInvokeDelegate(context) changed context.method from
// "return" to "throw", let that override the TypeError below.
return ContinueSentinel;
}
}
context.method = "throw";
context.arg = new TypeError(
"The iterator does not provide a 'throw' method");
}
return ContinueSentinel;
}
var record = tryCatch(method, delegate.iterator, context.arg);
if (record.type === "throw") {
context.method = "throw";
context.arg = record.arg;
context.delegate = null;
return ContinueSentinel;
}
var info = record.arg;
if (! info) {
context.method = "throw";
context.arg = new TypeError("iterator result is not an object");
context.delegate = null;
return ContinueSentinel;
}
if (info.done) {
// Assign the result of the finished delegate to the temporary
// variable specified by delegate.resultName (see delegateYield).
context[delegate.resultName] = info.value;
// Resume execution at the desired location (see delegateYield).
context.next = delegate.nextLoc;
// If context.method was "throw" but the delegate handled the
// exception, let the outer generator proceed normally. If
// context.method was "next", forget context.arg since it has been
// "consumed" by the delegate iterator. If context.method was
// "return", allow the original .return call to continue in the
// outer generator.
if (context.method !== "return") {
context.method = "next";
context.arg = undefined$1;
}
} else {
// Re-yield the result returned by the delegate method.
return info;
}
// The delegate iterator is finished, so forget it and continue with
// the outer generator.
context.delegate = null;
return ContinueSentinel;
}
// Define Generator.prototype.{next,throw,return} in terms of the
// unified ._invoke helper method.
defineIteratorMethods(Gp);
define(Gp, toStringTagSymbol, "Generator");
// A Generator should always return itself as the iterator object when the
// @@iterator function is called on it. Some browsers' implementations of the
// iterator prototype chain incorrectly implement this, causing the Generator
// object to not be returned from this call. This ensures that doesn't happen.
// See https://github.com/facebook/regenerator/issues/274 for more details.
define(Gp, iteratorSymbol, function() {
return this;
});
define(Gp, "toString", function() {
return "[object Generator]";
});
function pushTryEntry(locs) {
var entry = { tryLoc: locs[0] };
if (1 in locs) {
entry.catchLoc = locs[1];
}
if (2 in locs) {
entry.finallyLoc = locs[2];
entry.afterLoc = locs[3];
}
this.tryEntries.push(entry);
}
function resetTryEntry(entry) {
var record = entry.completion || {};
record.type = "normal";
delete record.arg;
entry.completion = record;
}
function Context(tryLocsList) {
// The root entry object (effectively a try statement without a catch
// or a finally block) gives us a place to store values thrown from
// locations where there is no enclosing try statement.
this.tryEntries = [{ tryLoc: "root" }];
tryLocsList.forEach(pushTryEntry, this);
this.reset(true);
}
exports.keys = function(object) {
var keys = [];
for (var key in object) {
keys.push(key);
}
keys.reverse();
// Rather than returning an object with a next method, we keep
// things simple and return the next function itself.
return function next() {
while (keys.length) {
var key = keys.pop();
if (key in object) {
next.value = key;
next.done = false;
return next;
}
}
// To avoid creating an additional object, we just hang the .value
// and .done properties off the next function object itself. This
// also ensures that the minifier will not anonymize the function.
next.done = true;
return next;
};
};
function values(iterable) {
if (iterable) {
var iteratorMethod = iterable[iteratorSymbol];
if (iteratorMethod) {
return iteratorMethod.call(iterable);
}
if (typeof iterable.next === "function") {
return iterable;
}
if (!isNaN(iterable.length)) {
var i = -1, next = function next() {
while (++i < iterable.length) {
if (hasOwn.call(iterable, i)) {
next.value = iterable[i];
next.done = false;
return next;
}
}
next.value = undefined$1;
next.done = true;
return next;
};
return next.next = next;
}
}
// Return an iterator with no values.
return { next: doneResult };
}
exports.values = values;
function doneResult() {
return { value: undefined$1, done: true };
}
Context.prototype = {
constructor: Context,
reset: function(skipTempReset) {
this.prev = 0;
this.next = 0;
// Resetting context._sent for legacy support of Babel's
// function.sent implementation.
this.sent = this._sent = undefined$1;
this.done = false;
this.delegate = null;
this.method = "next";
this.arg = undefined$1;
this.tryEntries.forEach(resetTryEntry);
if (!skipTempReset) {
for (var name in this) {
// Not sure about the optimal order of these conditions:
if (name.charAt(0) === "t" &&
hasOwn.call(this, name) &&
!isNaN(+name.slice(1))) {
this[name] = undefined$1;
}
}
}
},
stop: function() {
this.done = true;
var rootEntry = this.tryEntries[0];
var rootRecord = rootEntry.completion;
if (rootRecord.type === "throw") {
throw rootRecord.arg;
}
return this.rval;
},
dispatchException: function(exception) {
if (this.done) {
throw exception;
}
var context = this;
function handle(loc, caught) {
record.type = "throw";
record.arg = exception;
context.next = loc;
if (caught) {
// If the dispatched exception was caught by a catch block,
// then let that catch block handle the exception normally.
context.method = "next";
context.arg = undefined$1;
}
return !! caught;
}
for (var i = this.tryEntries.length - 1; i >= 0; --i) {
var entry = this.tryEntries[i];
var record = entry.completion;
if (entry.tryLoc === "root") {
// Exception thrown outside of any try block that could handle
// it, so set the completion value of the entire function to
// throw the exception.
return handle("end");
}
if (entry.tryLoc <= this.prev) {
var hasCatch = hasOwn.call(entry, "catchLoc");
var hasFinally = hasOwn.call(entry, "finallyLoc");
if (hasCatch && hasFinally) {
if (this.prev < entry.catchLoc) {
return handle(entry.catchLoc, true);
} else if (this.prev < entry.finallyLoc) {
return handle(entry.finallyLoc);
}
} else if (hasCatch) {
if (this.prev < entry.catchLoc) {
return handle(entry.catchLoc, true);
}
} else if (hasFinally) {
if (this.prev < entry.finallyLoc) {
return handle(entry.finallyLoc);
}
} else {
throw new Error("try statement without catch or finally");
}
}
}
},
abrupt: function(type, arg) {
for (var i = this.tryEntries.length - 1; i >= 0; --i) {
var entry = this.tryEntries[i];
if (entry.tryLoc <= this.prev &&
hasOwn.call(entry, "finallyLoc") &&
this.prev < entry.finallyLoc) {
var finallyEntry = entry;
break;
}
}
if (finallyEntry &&
(type === "break" ||
type === "continue") &&
finallyEntry.tryLoc <= arg &&
arg <= finallyEntry.finallyLoc) {
// Ignore the finally entry if control is not jumping to a
// location outside the try/catch block.
finallyEntry = null;
}
var record = finallyEntry ? finallyEntry.completion : {};
record.type = type;
record.arg = arg;
if (finallyEntry) {
this.method = "next";
this.next = finallyEntry.finallyLoc;
return ContinueSentinel;
}
return this.complete(record);
},
complete: function(record, afterLoc) {
if (record.type === "throw") {
throw record.arg;
}
if (record.type === "break" ||
record.type === "continue") {
this.next = record.arg;
} else if (record.type === "return") {
this.rval = this.arg = record.arg;
this.method = "return";
this.next = "end";
} else if (record.type === "normal" && afterLoc) {
this.next = afterLoc;
}
return ContinueSentinel;
},
finish: function(finallyLoc) {
for (var i = this.tryEntries.length - 1; i >= 0; --i) {
var entry = this.tryEntries[i];
if (entry.finallyLoc === finallyLoc) {
this.complete(entry.completion, entry.afterLoc);
resetTryEntry(entry);
return ContinueSentinel;
}
}
},
"catch": function(tryLoc) {
for (var i = this.tryEntries.length - 1; i >= 0; --i) {
var entry = this.tryEntries[i];
if (entry.tryLoc === tryLoc) {
var record = entry.completion;
if (record.type === "throw") {
var thrown = record.arg;
resetTryEntry(entry);
}
return thrown;
}
}
// The context.catch method must only be called with a location
// argument that corresponds to a known catch block.
throw new Error("illegal catch attempt");
},
delegateYield: function(iterable, resultName, nextLoc) {
this.delegate = {
iterator: values(iterable),
resultName: resultName,
nextLoc: nextLoc
};
if (this.method === "next") {
// Deliberately forget the last sent value so that we don't
// accidentally pass it on to the delegate.
this.arg = undefined$1;
}
return ContinueSentinel;
}
};
// Regardless of whether this script is executing as a CommonJS module
// or not, return the runtime object so that we can declare the variable
// regeneratorRuntime in the outer scope, which allows this module to be
// injected easily by `bin/regenerator --include-runtime script.js`.
return exports;
}(
// If this script is executing as a CommonJS module, use module.exports
// as the regeneratorRuntime namespace. Otherwise create a new empty
// object. Either way, the resulting object will be used to initialize
// the regeneratorRuntime variable at the top of this file.
module.exports
));
try {
regeneratorRuntime = runtime;
} catch (accidentalStrictMode) {
// This module should not be running in strict mode, so the above
// assignment should always work unless something is misconfigured. Just
// in case runtime.js accidentally runs in strict mode, in modern engines
// we can explicitly access globalThis. In older engines we can escape
// strict mode using a global Function call. This could conceivably fail
// if a Content Security Policy forbids using Function, but in that case
// the proper solution is to fix the accidental strict mode problem. If
// you've misconfigured your bundler to force strict mode and applied a
// CSP to forbid Function, and you're not willing to fix either of those
// problems, please detail your unique predicament in a GitHub issue.
if (typeof globalThis === "object") {
globalThis.regeneratorRuntime = runtime;
} else {
Function("r", "regeneratorRuntime = r")(runtime);
}
}
});
var regenerator = runtime_1;
/*!
* is-plain-object <https://github.com/jonschlinkert/is-plain-object>
*
* Copyright (c) 2014-2017, Jon Schlinkert.
* Released under the MIT License.
*/
function isObject(o) {
return Object.prototype.toString.call(o) === '[object Object]';
}
function isPlainObject(o) {
var ctor,prot;
if (isObject(o) === false) return false;
// If has modified constructor
ctor = o.constructor;
if (ctor === undefined) return true;
// If has modified prototype
prot = ctor.prototype;
if (isObject(prot) === false) return false;
// If constructor does not have an Object-specific method
if (prot.hasOwnProperty('isPrototypeOf') === false) {
return false;
}
// Most likely a plain Object
return true;
}
function _createForOfIteratorHelper$6(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$6(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$6(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$6(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$6(o, minLen); }
function _arrayLikeToArray$6(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
// Character (grapheme cluster) boundaries are determined according to
// the default grapheme cluster boundary specification, extended grapheme clusters variant[1].
//
// References:
//
// [1] https://www.unicode.org/reports/tr29/#Default_Grapheme_Cluster_Table
// [2] https://www.unicode.org/Public/UCD/latest/ucd/auxiliary/GraphemeBreakProperty.txt
// [3] https://www.unicode.org/Public/UCD/latest/ucd/auxiliary/GraphemeBreakTest.html
// [4] https://www.unicode.org/Public/UCD/latest/ucd/auxiliary/GraphemeBreakTest.txt
/**
* Get the distance to the end of the first character in a string of text.
*/
var getCharacterDistance = function getCharacterDistance(str) {
var isRTL = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false;
var isLTR = !isRTL;
var codepoints = isRTL ? codepointsIteratorRTL(str) : str;
var left = CodepointType.None;
var right = CodepointType.None;
var distance = 0; // Evaluation of these conditions are deferred.
var gb11 = null; // Is GB11 applicable?
var gb12Or13 = null; // Is GB12 or GB13 applicable?
var _iterator = _createForOfIteratorHelper$6(codepoints),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var _char = _step.value;
var code = _char.codePointAt(0);
if (!code) break;
var type = getCodepointType(_char, code);
var _ref = isLTR ? [right, type] : [type, left];
var _ref2 = _slicedToArray(_ref, 2);
left = _ref2[0];
right = _ref2[1];
if (intersects(left, CodepointType.ZWJ) && intersects(right, CodepointType.ExtPict)) {
if (isLTR) {
gb11 = endsWithEmojiZWJ(str.substring(0, distance));
} else {
gb11 = endsWithEmojiZWJ(str.substring(0, str.length - distance));
}
if (!gb11) break;
}
if (intersects(left, CodepointType.RI) && intersects(right, CodepointType.RI)) {
if (gb12Or13 !== null) {
gb12Or13 = !gb12Or13;
} else {
if (isLTR) {
gb12Or13 = true;
} else {
gb12Or13 = endsWithOddNumberOfRIs(str.substring(0, str.length - distance));
}
}
if (!gb12Or13) break;
}
if (left !== CodepointType.None && right !== CodepointType.None && isBoundaryPair(left, right)) {
break;
}
distance += _char.length;
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
return distance || 1;
};
var SPACE = /\s/;
var PUNCTUATION = /[\u0021-\u0023\u0025-\u002A\u002C-\u002F\u003A\u003B\u003F\u0040\u005B-\u005D\u005F\u007B\u007D\u00A1\u00A7\u00AB\u00B6\u00B7\u00BB\u00BF\u037E\u0387\u055A-\u055F\u0589\u058A\u05BE\u05C0\u05C3\u05C6\u05F3\u05F4\u0609\u060A\u060C\u060D\u061B\u061E\u061F\u066A-\u066D\u06D4\u0700-\u070D\u07F7-\u07F9\u0830-\u083E\u085E\u0964\u0965\u0970\u0AF0\u0DF4\u0E4F\u0E5A\u0E5B\u0F04-\u0F12\u0F14\u0F3A-\u0F3D\u0F85\u0FD0-\u0FD4\u0FD9\u0FDA\u104A-\u104F\u10FB\u1360-\u1368\u1400\u166D\u166E\u169B\u169C\u16EB-\u16ED\u1735\u1736\u17D4-\u17D6\u17D8-\u17DA\u1800-\u180A\u1944\u1945\u1A1E\u1A1F\u1AA0-\u1AA6\u1AA8-\u1AAD\u1B5A-\u1B60\u1BFC-\u1BFF\u1C3B-\u1C3F\u1C7E\u1C7F\u1CC0-\u1CC7\u1CD3\u2010-\u2027\u2030-\u2043\u2045-\u2051\u2053-\u205E\u207D\u207E\u208D\u208E\u2329\u232A\u2768-\u2775\u27C5\u27C6\u27E6-\u27EF\u2983-\u2998\u29D8-\u29DB\u29FC\u29FD\u2CF9-\u2CFC\u2CFE\u2CFF\u2D70\u2E00-\u2E2E\u2E30-\u2E3B\u3001-\u3003\u3008-\u3011\u3014-\u301F\u3030\u303D\u30A0\u30FB\uA4FE\uA4FF\uA60D-\uA60F\uA673\uA67E\uA6F2-\uA6F7\uA874-\uA877\uA8CE\uA8CF\uA8F8-\uA8FA\uA92E\uA92F\uA95F\uA9C1-\uA9CD\uA9DE\uA9DF\uAA5C-\uAA5F\uAADE\uAADF\uAAF0\uAAF1\uABEB\uFD3E\uFD3F\uFE10-\uFE19\uFE30-\uFE52\uFE54-\uFE61\uFE63\uFE68\uFE6A\uFE6B\uFF01-\uFF03\uFF05-\uFF0A\uFF0C-\uFF0F\uFF1A\uFF1B\uFF1F\uFF20\uFF3B-\uFF3D\uFF3F\uFF5B\uFF5D\uFF5F-\uFF65]/;
var CHAMELEON = /['\u2018\u2019]/;
/**
* Get the distance to the end of the first word in a string of text.
*/
var getWordDistance = function getWordDistance(text) {
var isRTL = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : false;
var dist = 0;
var started = false;
while (text.length > 0) {
var charDist = getCharacterDistance(text, isRTL);
var _splitByCharacterDist = splitByCharacterDistance(text, charDist, isRTL),
_splitByCharacterDist2 = _slicedToArray(_splitByCharacterDist, 2),
_char2 = _splitByCharacterDist2[0],
remaining = _splitByCharacterDist2[1];
if (isWordCharacter(_char2, remaining, isRTL)) {
started = true;
dist += charDist;
} else if (!started) {
dist += charDist;
} else {
break;
}
text = remaining;
}
return dist;
};
/**
* Split a string in two parts at a given distance starting from the end when
* `isRTL` is set to `true`.
*/
var splitByCharacterDistance = function splitByCharacterDistance(str, dist, isRTL) {
if (isRTL) {
var at = str.length - dist;
return [str.slice(at, str.length), str.slice(0, at)];
}
return [str.slice(0, dist), str.slice(dist)];
};
/**
* Check if a character is a word character. The `remaining` argument is used
* because sometimes you must read subsequent characters to truly determine it.
*/
var isWordCharacter = function isWordCharacter(_char3, remaining) {
var isRTL = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false;
if (SPACE.test(_char3)) {
return false;
} // Chameleons count as word characters as long as they're in a word, so
// recurse to see if the next one is a word character or not.
if (CHAMELEON.test(_char3)) {
var charDist = getCharacterDistance(remaining, isRTL);
var _splitByCharacterDist3 = splitByCharacterDistance(remaining, charDist, isRTL),
_splitByCharacterDist4 = _slicedToArray(_splitByCharacterDist3, 2),
nextChar = _splitByCharacterDist4[0],
nextRemaining = _splitByCharacterDist4[1];
if (isWordCharacter(nextChar, nextRemaining, isRTL)) {
return true;
}
}
if (PUNCTUATION.test(_char3)) {
return false;
}
return true;
};
/**
* Iterate on codepoints from right to left.
*/
var codepointsIteratorRTL = /*#__PURE__*/regenerator.mark(function codepointsIteratorRTL(str) {
var end, i, char1, char2;
return regenerator.wrap(function codepointsIteratorRTL$(_context) {
while (1) {
switch (_context.prev = _context.next) {
case 0:
end = str.length - 1;
i = 0;
case 2:
if (!(i < str.length)) {
_context.next = 16;
break;
}
char1 = str.charAt(end - i);
if (!isLowSurrogate(char1.charCodeAt(0))) {
_context.next = 11;
break;
}
char2 = str.charAt(end - i - 1);
if (!isHighSurrogate(char2.charCodeAt(0))) {
_context.next = 11;
break;
}
_context.next = 9;
return char2 + char1;
case 9:
i++;
return _context.abrupt("continue", 13);
case 11:
_context.next = 13;
return char1;
case 13:
i++;
_context.next = 2;
break;
case 16:
case "end":
return _context.stop();
}
}
}, codepointsIteratorRTL);
});
/**
* Is `charCode` a high surrogate.
*
* https://en.wikipedia.org/wiki/Universal_Character_Set_characters#Surrogates
*/
var isHighSurrogate = function isHighSurrogate(charCode) {
return charCode >= 0xd800 && charCode <= 0xdbff;
};
/**
* Is `charCode` a low surrogate.
*
* https://en.wikipedia.org/wiki/Universal_Character_Set_characters#Surrogates
*/
var isLowSurrogate = function isLowSurrogate(charCode) {
return charCode >= 0xdc00 && charCode <= 0xdfff;
};
var CodepointType;
(function (CodepointType) {
CodepointType[CodepointType["None"] = 0] = "None";
CodepointType[CodepointType["Extend"] = 1] = "Extend";
CodepointType[CodepointType["ZWJ"] = 2] = "ZWJ";
CodepointType[CodepointType["RI"] = 4] = "RI";
CodepointType[CodepointType["Prepend"] = 8] = "Prepend";
CodepointType[CodepointType["SpacingMark"] = 16] = "SpacingMark";
CodepointType[CodepointType["L"] = 32] = "L";
CodepointType[CodepointType["V"] = 64] = "V";
CodepointType[CodepointType["T"] = 128] = "T";
CodepointType[CodepointType["LV"] = 256] = "LV";
CodepointType[CodepointType["LVT"] = 512] = "LVT";
CodepointType[CodepointType["ExtPict"] = 1024] = "ExtPict";
CodepointType[CodepointType["Any"] = 2048] = "Any";
})(CodepointType || (CodepointType = {}));
var reExtend = /^(?:[\u0300-\u036F\u0483-\u0489\u0591-\u05BD\u05BF\u05C1\u05C2\u05C4\u05C5\u05C7\u0610-\u061A\u064B-\u065F\u0670\u06D6-\u06DC\u06DF-\u06E4\u06E7\u06E8\u06EA-\u06ED\u0711\u0730-\u074A\u07A6-\u07B0\u07EB-\u07F3\u07FD\u0816-\u0819\u081B-\u0823\u0825-\u0827\u0829-\u082D\u0859-\u085B\u08D3-\u08E1\u08E3-\u0902\u093A\u093C\u0941-\u0948\u094D\u0951-\u0957\u0962\u0963\u0981\u09BC\u09BE\u09C1-\u09C4\u09CD\u09D7\u09E2\u09E3\u09FE\u0A01\u0A02\u0A3C\u0A41\u0A42\u0A47\u0A48\u0A4B-\u0A4D\u0A51\u0A70\u0A71\u0A75\u0A81\u0A82\u0ABC\u0AC1-\u0AC5\u0AC7\u0AC8\u0ACD\u0AE2\u0AE3\u0AFA-\u0AFF\u0B01\u0B3C\u0B3E\u0B3F\u0B41-\u0B44\u0B4D\u0B55-\u0B57\u0B62\u0B63\u0B82\u0BBE\u0BC0\u0BCD\u0BD7\u0C00\u0C04\u0C3E-\u0C40\u0C46-\u0C48\u0C4A-\u0C4D\u0C55\u0C56\u0C62\u0C63\u0C81\u0CBC\u0CBF\u0CC2\u0CC6\u0CCC\u0CCD\u0CD5\u0CD6\u0CE2\u0CE3\u0D00\u0D01\u0D3B\u0D3C\u0D3E\u0D41-\u0D44\u0D4D\u0D57\u0D62\u0D63\u0D81\u0DCA\u0DCF\u0DD2-\u0DD4\u0DD6\u0DDF\u0E31\u0E34-\u0E3A\u0E47-\u0E4E\u0EB1\u0EB4-\u0EBC\u0EC8-\u0ECD\u0F18\u0F19\u0F35\u0F37\u0F39\u0F71-\u0F7E\u0F80-\u0F84\u0F86\u0F87\u0F8D-\u0F97\u0F99-\u0FBC\u0FC6\u102D-\u1030\u1032-\u1037\u1039\u103A\u103D\u103E\u1058\u1059\u105E-\u1060\u1071-\u1074\u1082\u1085\u1086\u108D\u109D\u135D-\u135F\u1712-\u1714\u1732-\u1734\u1752\u1753\u1772\u1773\u17B4\u17B5\u17B7-\u17BD\u17C6\u17C9-\u17D3\u17DD\u180B-\u180D\u1885\u1886\u18A9\u1920-\u1922\u1927\u1928\u1932\u1939-\u193B\u1A17\u1A18\u1A1B\u1A56\u1A58-\u1A5E\u1A60\u1A62\u1A65-\u1A6C\u1A73-\u1A7C\u1A7F\u1AB0-\u1AC0\u1B00-\u1B03\u1B34-\u1B3A\u1B3C\u1B42\u1B6B-\u1B73\u1B80\u1B81\u1BA2-\u1BA5\u1BA8\u1BA9\u1BAB-\u1BAD\u1BE6\u1BE8\u1BE9\u1BED\u1BEF-\u1BF1\u1C2C-\u1C33\u1C36\u1C37\u1CD0-\u1CD2\u1CD4-\u1CE0\u1CE2-\u1CE8\u1CED\u1CF4\u1CF8\u1CF9\u1DC0-\u1DF9\u1DFB-\u1DFF\u200C\u20D0-\u20F0\u2CEF-\u2CF1\u2D7F\u2DE0-\u2DFF\u302A-\u302F\u3099\u309A\uA66F-\uA672\uA674-\uA67D\uA69E\uA69F\uA6F0\uA6F1\uA802\uA806\uA80B\uA825\uA826\uA82C\uA8C4\uA8C5\uA8E0-\uA8F1\uA8FF\uA926-\uA92D\uA947-\uA951\uA980-\uA982\uA9B3\uA9B6-\uA9B9\uA9BC\uA9BD\uA9E5\uAA29-\uAA2E\uAA31\uAA32\uAA35\uAA36\uAA43\uAA4C\uAA7C\uAAB0\uAAB2-\uAAB4\uAAB7\uAAB8\uAABE\uAABF\uAAC1\uAAEC\uAAED\uAAF6\uABE5\uABE8\uABED\uFB1E\uFE00-\uFE0F\uFE20-\uFE2F\uFF9E\uFF9F]|\uD800[\uDDFD\uDEE0\uDF76-\uDF7A]|\uD802[\uDE01-\uDE03\uDE05\uDE06\uDE0C-\uDE0F\uDE38-\uDE3A\uDE3F\uDEE5\uDEE6]|\uD803[\uDD24-\uDD27\uDEAB\uDEAC\uDF46-\uDF50]|\uD804[\uDC01\uDC38-\uDC46\uDC7F-\uDC81\uDCB3-\uDCB6\uDCB9\uDCBA\uDD00-\uDD02\uDD27-\uDD2B\uDD2D-\uDD34\uDD73\uDD80\uDD81\uDDB6-\uDDBE\uDDC9-\uDDCC\uDDCF\uDE2F-\uDE31\uDE34\uDE36\uDE37\uDE3E\uDEDF\uDEE3-\uDEEA\uDF00\uDF01\uDF3B\uDF3C\uDF3E\uDF40\uDF57\uDF66-\uDF6C\uDF70-\uDF74]|\uD805[\uDC38-\uDC3F\uDC42-\uDC44\uDC46\uDC5E\uDCB0\uDCB3-\uDCB8\uDCBA\uDCBD\uDCBF\uDCC0\uDCC2\uDCC3\uDDAF\uDDB2-\uDDB5\uDDBC\uDDBD\uDDBF\uDDC0\uDDDC\uDDDD\uDE33-\uDE3A\uDE3D\uDE3F\uDE40\uDEAB\uDEAD\uDEB0-\uDEB5\uDEB7\uDF1D-\uDF1F\uDF22-\uDF25\uDF27-\uDF2B]|\uD806[\uDC2F-\uDC37\uDC39\uDC3A\uDD30\uDD3B\uDD3C\uDD3E\uDD43\uDDD4-\uDDD7\uDDDA\uDDDB\uDDE0\uDE01-\uDE0A\uDE33-\uDE38\uDE3B-\uDE3E\uDE47\uDE51-\uDE56\uDE59-\uDE5B\uDE8A-\uDE96\uDE98\uDE99]|\uD807[\uDC30-\uDC36\uDC38-\uDC3D\uDC3F\uDC92-\uDCA7\uDCAA-\uDCB0\uDCB2\uDCB3\uDCB5\uDCB6\uDD31-\uDD36\uDD3A\uDD3C\uDD3D\uDD3F-\uDD45\uDD47\uDD90\uDD91\uDD95\uDD97\uDEF3\uDEF4]|\uD81A[\uDEF0-\uDEF4\uDF30-\uDF36]|\uD81B[\uDF4F\uDF8F-\uDF92\uDFE4]|\uD82F[\uDC9D\uDC9E]|\uD834[\uDD65\uDD67-\uDD69\uDD6E-\uDD72\uDD7B-\uDD82\uDD85-\uDD8B\uDDAA-\uDDAD\uDE42-\uDE44]|\uD836[\uDE00-\uDE36\uDE3B-\uDE6C\uDE75\uDE84\uDE9B-\uDE9F\uDEA1-\uDEAF]|\uD838[\uDC00-\uDC06\uDC08-\uDC18\uDC1B-\uDC21\uDC23\uDC24\uDC26-\uDC2A\uDD30-\uDD36\uDEEC-\uDEEF]|\uD83A[\uDCD0-\uDCD6\uDD44-\uDD4A]|\uD83C[\uDFFB-\uDFFF]|\uDB40[\uDC20-\uDC7F\uDD00-\uDDEF])$/;
var rePrepend = /^(?:[\u0600-\u0605\u06DD\u070F\u0890\u0891\u08E2\u0D4E]|\uD804[\uDCBD\uDCCD\uDDC2\uDDC3]|\uD806[\uDD3F\uDD41\uDE3A\uDE84-\uDE89]|\uD807\uDD46)$/;
var reSpacingMark = /^(?:[\u0903\u093B\u093E-\u0940\u0949-\u094C\u094E\u094F\u0982\u0983\u09BF\u09C0\u09C7\u09C8\u09CB\u09CC\u0A03\u0A3E-\u0A40\u0A83\u0ABE-\u0AC0\u0AC9\u0ACB\u0ACC\u0B02\u0B03\u0B40\u0B47\u0B48\u0B4B\u0B4C\u0BBF\u0BC1\u0BC2\u0BC6-\u0BC8\u0BCA-\u0BCC\u0C01-\u0C03\u0C41-\u0C44\u0C82\u0C83\u0CBE\u0CC0\u0CC1\u0CC3\u0CC4\u0CC7\u0CC8\u0CCA\u0CCB\u0D02\u0D03\u0D3F\u0D40\u0D46-\u0D48\u0D4A-\u0D4C\u0D82\u0D83\u0DD0\u0DD1\u0DD8-\u0DDE\u0DF2\u0DF3\u0E33\u0EB3\u0F3E\u0F3F\u0F7F\u1031\u103B\u103C\u1056\u1057\u1084\u1715\u1734\u17B6\u17BE-\u17C5\u17C7\u17C8\u1923-\u1926\u1929-\u192B\u1930\u1931\u1933-\u1938\u1A19\u1A1A\u1A55\u1A57\u1A6D-\u1A72\u1B04\u1B3B\u1B3D-\u1B41\u1B43\u1B44\u1B82\u1BA1\u1BA6\u1BA7\u1BAA\u1BE7\u1BEA-\u1BEC\u1BEE\u1BF2\u1BF3\u1C24-\u1C2B\u1C34\u1C35\u1CE1\u1CF7\uA823\uA824\uA827\uA880\uA881\uA8B4-\uA8C3\uA952\uA953\uA983\uA9B4\uA9B5\uA9BA\uA9BB\uA9BE-\uA9C0\uAA2F\uAA30\uAA33\uAA34\uAA4D\uAAEB\uAAEE\uAAEF\uAAF5\uABE3\uABE4\uABE6\uABE7\uABE9\uABEA\uABEC]|\uD804[\uDC00\uDC02\uDC82\uDCB0-\uDCB2\uDCB7\uDCB8\uDD2C\uDD45\uDD46\uDD82\uDDB3-\uDDB5\uDDBF\uDDC0\uDDCE\uDE2C-\uDE2E\uDE32\uDE33\uDE35\uDEE0-\uDEE2\uDF02\uDF03\uDF3F\uDF41-\uDF44\uDF47\uDF48\uDF4B-\uDF4D\uDF62\uDF63]|\uD805[\uDC35-\uDC37\uDC40\uDC41\uDC45\uDCB1\uDCB2\uDCB9\uDCBB\uDCBC\uDCBE\uDCC1\uDDB0\uDDB1\uDDB8-\uDDBB\uDDBE\uDE30-\uDE32\uDE3B\uDE3C\uDE3E\uDEAC\uDEAE\uDEAF\uDEB6\uDF26]|\uD806[\uDC2C-\uDC2E\uDC38\uDD31-\uDD35\uDD37\uDD38\uDD3D\uDD40\uDD42\uDDD1-\uDDD3\uDDDC-\uDDDF\uDDE4\uDE39\uDE57\uDE58\uDE97]|\uD807[\uDC2F\uDC3E\uDCA9\uDCB1\uDCB4\uDD8A-\uDD8E\uDD93\uDD94\uDD96\uDEF5\uDEF6]|\uD81B[\uDF51-\uDF87\uDFF0\uDFF1]|\uD834[\uDD66\uDD6D])$/;
var reL = /^[\u1100-\u115F\uA960-\uA97C]$/;
var reV = /^[\u1160-\u11A7\uD7B0-\uD7C6]$/;
var reT = /^[\u11A8-\u11FF\uD7CB-\uD7FB]$/;
var reLV = /^[\uAC00\uAC1C\uAC38\uAC54\uAC70\uAC8C\uACA8\uACC4\uACE0\uACFC\uAD18\uAD34\uAD50\uAD6C\uAD88\uADA4\uADC0\uADDC\uADF8\uAE14\uAE30\uAE4C\uAE68\uAE84\uAEA0\uAEBC\uAED8\uAEF4\uAF10\uAF2C\uAF48\uAF64\uAF80\uAF9C\uAFB8\uAFD4\uAFF0\uB00C\uB028\uB044\uB060\uB07C\uB098\uB0B4\uB0D0\uB0EC\uB108\uB124\uB140\uB15C\uB178\uB194\uB1B0\uB1CC\uB1E8\uB204\uB220\uB23C\uB258\uB274\uB290\uB2AC\uB2C8\uB2E4\uB300\uB31C\uB338\uB354\uB370\uB38C\uB3A8\uB3C4\uB3E0\uB3FC\uB418\uB434\uB450\uB46C\uB488\uB4A4\uB4C0\uB4DC\uB4F8\uB514\uB530\uB54C\uB568\uB584\uB5A0\uB5BC\uB5D8\uB5F4\uB610\uB62C\uB648\uB664\uB680\uB69C\uB6B8\uB6D4\uB6F0\uB70C\uB728\uB744\uB760\uB77C\uB798\uB7B4\uB7D0\uB7EC\uB808\uB824\uB840\uB85C\uB878\uB894\uB8B0\uB8CC\uB8E8\uB904\uB920\uB93C\uB958\uB974\uB990\uB9AC\uB9C8\uB9E4\uBA00\uBA1C\uBA38\uBA54\uBA70\uBA8C\uBAA8\uBAC4\uBAE0\uBAFC\uBB18\uBB34\uBB50\uBB6C\uBB88\uBBA4\uBBC0\uBBDC\uBBF8\uBC14\uBC30\uBC4C\uBC68\uBC84\uBCA0\uBCBC\uBCD8\uBCF4\uBD10\uBD2C\uBD48\uBD64\uBD80\uBD9C\uBDB8\uBDD4\uBDF0\uBE0C\uBE28\uBE44\uBE60\uBE7C\uBE98\uBEB4\uBED0\uBEEC\uBF08\uBF24\uBF40\uBF5C\uBF78\uBF94\uBFB0\uBFCC\uBFE8\uC004\uC020\uC03C\uC058\uC074\uC090\uC0AC\uC0C8\uC0E4\uC100\uC11C\uC138\uC154\uC170\uC18C\uC1A8\uC1C4\uC1E0\uC1FC\uC218\uC234\uC250\uC26C\uC288\uC2A4\uC2C0\uC2DC\uC2F8\uC314\uC330\uC34C\uC368\uC384\uC3A0\uC3BC\uC3D8\uC3F4\uC410\uC42C\uC448\uC464\uC480\uC49C\uC4B8\uC4D4\uC4F0\uC50C\uC528\uC544\uC560\uC57C\uC598\uC5B4\uC5D0\uC5EC\uC608\uC624\uC640\uC65C\uC678\uC694\uC6B0\uC6CC\uC6E8\uC704\uC720\uC73C\uC758\uC774\uC790\uC7AC\uC7C8\uC7E4\uC800\uC81C\uC838\uC854\uC870\uC88C\uC8A8\uC8C4\uC8E0\uC8FC\uC918\uC934\uC950\uC96C\uC988\uC9A4\uC9C0\uC9DC\uC9F8\uCA14\uCA30\uCA4C\uCA68\uCA84\uCAA0\uCABC\uCAD8\uCAF4\uCB10\uCB2C\uCB48\uCB64\uCB80\uCB9C\uCBB8\uCBD4\uCBF0\uCC0C\uCC28\uCC44\uCC60\uCC7C\uCC98\uCCB4\uCCD0\uCCEC\uCD08\uCD24\uCD40\uCD5C\uCD78\uCD94\uCDB0\uCDCC\uCDE8\uCE04\uCE20\uCE3C\uCE58\uCE74\uCE90\uCEAC\uCEC8\uCEE4\uCF00\uCF1C\uCF38\uCF54\uCF70\uCF8C\uCFA8\uCFC4\uCFE0\uCFFC\uD018\uD034\uD050\uD06C\uD088\uD0A4\uD0C0\uD0DC\uD0F8\uD114\uD130\uD14C\uD168\uD184\uD1A0\uD1BC\uD1D8\uD1F4\uD210\uD22C\uD248\uD264\uD280\uD29C\uD2B8\uD2D4\uD2F0\uD30C\uD328\uD344\uD360\uD37C\uD398\uD3B4\uD3D0\uD3EC\uD408\uD424\uD440\uD45C\uD478\uD494\uD4B0\uD4CC\uD4E8\uD504\uD520\uD53C\uD558\uD574\uD590\uD5AC\uD5C8\uD5E4\uD600\uD61C\uD638\uD654\uD670\uD68C\uD6A8\uD6C4\uD6E0\uD6FC\uD718\uD734\uD750\uD76C\uD788]$/;
var reLVT = /^[\uAC01-\uAC1B\uAC1D-\uAC37\uAC39-\uAC53\uAC55-\uAC6F\uAC71-\uAC8B\uAC8D-\uACA7\uACA9-\uACC3\uACC5-\uACDF\uACE1-\uACFB\uACFD-\uAD17\uAD19-\uAD33\uAD35-\uAD4F\uAD51-\uAD6B\uAD6D-\uAD87\uAD89-\uADA3\uADA5-\uADBF\uADC1-\uADDB\uADDD-\uADF7\uADF9-\uAE13\uAE15-\uAE2F\uAE31-\uAE4B\uAE4D-\uAE67\uAE69-\uAE83\uAE85-\uAE9F\uAEA1-\uAEBB\uAEBD-\uAED7\uAED9-\uAEF3\uAEF5-\uAF0F\uAF11-\uAF2B\uAF2D-\uAF47\uAF49-\uAF63\uAF65-\uAF7F\uAF81-\uAF9B\uAF9D-\uAFB7\uAFB9-\uAFD3\uAFD5-\uAFEF\uAFF1-\uB00B\uB00D-\uB027\uB029-\uB043\uB045-\uB05F\uB061-\uB07B\uB07D-\uB097\uB099-\uB0B3\uB0B5-\uB0CF\uB0D1-\uB0EB\uB0ED-\uB107\uB109-\uB123\uB125-\uB13F\uB141-\uB15B\uB15D-\uB177\uB179-\uB193\uB195-\uB1AF\uB1B1-\uB1CB\uB1CD-\uB1E7\uB1E9-\uB203\uB205-\uB21F\uB221-\uB23B\uB23D-\uB257\uB259-\uB273\uB275-\uB28F\uB291-\uB2AB\uB2AD-\uB2C7\uB2C9-\uB2E3\uB2E5-\uB2FF\uB301-\uB31B\uB31D-\uB337\uB339-\uB353\uB355-\uB36F\uB371-\uB38B\uB38D-\uB3A7\uB3A9-\uB3C3\uB3C5-\uB3DF\uB3E1-\uB3FB\uB3FD-\uB417\uB419-\uB433\uB435-\uB44F\uB451-\uB46B\uB46D-\uB487\uB489-\uB4A3\uB4A5-\uB4BF\uB4C1-\uB4DB\uB4DD-\uB4F7\uB4F9-\uB513\uB515-\uB52F\uB531-\uB54B\uB54D-\uB567\uB569-\uB583\uB585-\uB59F\uB5A1-\uB5BB\uB5BD-\uB5D7\uB5D9-\uB5F3\uB5F5-\uB60F\uB611-\uB62B\uB62D-\uB647\uB649-\uB663\uB665-\uB67F\uB681-\uB69B\uB69D-\uB6B7\uB6B9-\uB6D3\uB6D5-\uB6EF\uB6F1-\uB70B\uB70D-\uB727\uB729-\uB743\uB745-\uB75F\uB761-\uB77B\uB77D-\uB797\uB799-\uB7B3\uB7B5-\uB7CF\uB7D1-\uB7EB\uB7ED-\uB807\uB809-\uB823\uB825-\uB83F\uB841-\uB85B\uB85D-\uB877\uB879-\uB893\uB895-\uB8AF\uB8B1-\uB8CB\uB8CD-\uB8E7\uB8E9-\uB903\uB905-\uB91F\uB921-\uB93B\uB93D-\uB957\uB959-\uB973\uB975-\uB98F\uB991-\uB9AB\uB9AD-\uB9C7\uB9C9-\uB9E3\uB9E5-\uB9FF\uBA01-\uBA1B\uBA1D-\uBA37\uBA39-\uBA53\uBA55-\uBA6F\uBA71-\uBA8B\uBA8D-\uBAA7\uBAA9-\uBAC3\uBAC5-\uBADF\uBAE1-\uBAFB\uBAFD-\uBB17\uBB19-\uBB33\uBB35-\uBB4F\uBB51-\uBB6B\uBB6D-\uBB87\uBB89-\uBBA3\uBBA5-\uBBBF\uBBC1-\uBBDB\uBBDD-\uBBF7\uBBF9-\uBC13\uBC15-\uBC2F\uBC31-\uBC4B\uBC4D-\uBC67\uBC69-\uBC83\uBC85-\uBC9F\uBCA1-\uBCBB\uBCBD-\uBCD7\uBCD9-\uBCF3\uBCF5-\uBD0F\uBD11-\uBD2B\uBD2D-\uBD47\uBD49-\uBD63\uBD65-\uBD7F\uBD81-\uBD9B\uBD9D-\uBDB7\uBDB9-\uBDD3\uBDD5-\uBDEF\uBDF1-\uBE0B\uBE0D-\uBE27\uBE29-\uBE43\uBE45-\uBE5F\uBE61-\uBE7B\uBE7D-\uBE97\uBE99-\uBEB3\uBEB5-\uBECF\uBED1-\uBEEB\uBEED-\uBF07\uBF09-\uBF23\uBF25-\uBF3F\uBF41-\uBF5B\uBF5D-\uBF77\uBF79-\uBF93\uBF95-\uBFAF\uBFB1-\uBFCB\uBFCD-\uBFE7\uBFE9-\uC003\uC005-\uC01F\uC021-\uC03B\uC03D-\uC057\uC059-\uC073\uC075-\uC08F\uC091-\uC0AB\uC0AD-\uC0C7\uC0C9-\uC0E3\uC0E5-\uC0FF\uC101-\uC11B\uC11D-\uC137\uC139-\uC153\uC155-\uC16F\uC171-\uC18B\uC18D-\uC1A7\uC1A9-\uC1C3\uC1C5-\uC1DF\uC1E1-\uC1FB\uC1FD-\uC217\uC219-\uC233\uC235-\uC24F\uC251-\uC26B\uC26D-\uC287\uC289-\uC2A3\uC2A5-\uC2BF\uC2C1-\uC2DB\uC2DD-\uC2F7\uC2F9-\uC313\uC315-\uC32F\uC331-\uC34B\uC34D-\uC367\uC369-\uC383\uC385-\uC39F\uC3A1-\uC3BB\uC3BD-\uC3D7\uC3D9-\uC3F3\uC3F5-\uC40F\uC411-\uC42B\uC42D-\uC447\uC449-\uC463\uC465-\uC47F\uC481-\uC49B\uC49D-\uC4B7\uC4B9-\uC4D3\uC4D5-\uC4EF\uC4F1-\uC50B\uC50D-\uC527\uC529-\uC543\uC545-\uC55F\uC561-\uC57B\uC57D-\uC597\uC599-\uC5B3\uC5B5-\uC5CF\uC5D1-\uC5EB\uC5ED-\uC607\uC609-\uC623\uC625-\uC63F\uC641-\uC65B\uC65D-\uC677\uC679-\uC693\uC695-\uC6AF\uC6B1-\uC6CB\uC6CD-\uC6E7\uC6E9-\uC703\uC705-\uC71F\uC721-\uC73B\uC73D-\uC757\uC759-\uC773\uC775-\uC78F\uC791-\uC7AB\uC7AD-\uC7C7\uC7C9-\uC7E3\uC7E5-\uC7FF\uC801-\uC81B\uC81D-\uC837\uC839-\uC853\uC855-\uC86F\uC871-\uC88B\uC88D-\uC8A7\uC8A9-\uC8C3\uC8C5-\uC8DF\uC8E1-\uC8FB\uC8FD-\uC917\uC919-\uC933\uC935-\uC94F\uC951-\uC96B\uC96D-\uC987\uC989-\uC9A3\uC9A5-\uC9BF\uC9C1-\uC9DB\uC9DD-\uC9F7\uC9F9-\uCA13\uCA15-\uCA2F\uCA31-\uCA4B\uCA4D-\uCA67\uCA69-\uCA83\uCA85-\uCA9F\uCAA1-\uCABB\uCABD-\uCAD7\uCAD9-\uCAF3\uCAF5-\uCB0F\uCB11-\uCB2B\uCB2D-\uCB47\uCB49-\uCB63\uCB65-\uCB7F\uCB81-\uCB9B\uCB9D-\uCBB7\uCBB9-\uCBD3\uCBD5-\uCBEF\uCBF1-\uCC0B\uCC0D-\uCC27\uCC29-\uCC43\uCC45-\uCC5F\uCC61-\uCC7B\uCC7D-\uCC97\uCC99-\uCCB3\uCCB5-\uCCCF\uCCD1-\uCCEB\uCCED-\uCD07\uCD09-\uCD23\uCD25-\uCD3F\uCD41-\uCD5B\uCD5D-\uCD77\uCD79-\uCD93\uCD95-\uCDAF\uCDB1-\uCDCB\uCDCD-\uCDE7\uCDE9-\uCE03\uCE05-\uCE1F\uCE21-\uCE3B\uCE3D-\uCE57\uCE59-\uCE73\uCE75-\uCE8F\uCE91-\uCEAB\uCEAD-\uCEC7\uCEC9-\uCEE3\uCEE5-\uCEFF\uCF01-\uCF1B\uCF1D-\uCF37\uCF39-\uCF53\uCF55-\uCF6F\uCF71-\uCF8B\uCF8D-\uCFA7\uCFA9-\uCFC3\uCFC5-\uCFDF\uCFE1-\uCFFB\uCFFD-\uD017\uD019-\uD033\uD035-\uD04F\uD051-\uD06B\uD06D-\uD087\uD089-\uD0A3\uD0A5-\uD0BF\uD0C1-\uD0DB\uD0DD-\uD0F7\uD0F9-\uD113\uD115-\uD12F\uD131-\uD14B\uD14D-\uD167\uD169-\uD183\uD185-\uD19F\uD1A1-\uD1BB\uD1BD-\uD1D7\uD1D9-\uD1F3\uD1F5-\uD20F\uD211-\uD22B\uD22D-\uD247\uD249-\uD263\uD265-\uD27F\uD281-\uD29B\uD29D-\uD2B7\uD2B9-\uD2D3\uD2D5-\uD2EF\uD2F1-\uD30B\uD30D-\uD327\uD329-\uD343\uD345-\uD35F\uD361-\uD37B\uD37D-\uD397\uD399-\uD3B3\uD3B5-\uD3CF\uD3D1-\uD3EB\uD3ED-\uD407\uD409-\uD423\uD425-\uD43F\uD441-\uD45B\uD45D-\uD477\uD479-\uD493\uD495-\uD4AF\uD4B1-\uD4CB\uD4CD-\uD4E7\uD4E9-\uD503\uD505-\uD51F\uD521-\uD53B\uD53D-\uD557\uD559-\uD573\uD575-\uD58F\uD591-\uD5AB\uD5AD-\uD5C7\uD5C9-\uD5E3\uD5E5-\uD5FF\uD601-\uD61B\uD61D-\uD637\uD639-\uD653\uD655-\uD66F\uD671-\uD68B\uD68D-\uD6A7\uD6A9-\uD6C3\uD6C5-\uD6DF\uD6E1-\uD6FB\uD6FD-\uD717\uD719-\uD733\uD735-\uD74F\uD751-\uD76B\uD76D-\uD787\uD789-\uD7A3]$/;
var reExtPict = /^(?:[\xA9\xAE\u203C\u2049\u2122\u2139\u2194-\u2199\u21A9\u21AA\u231A\u231B\u2328\u2388\u23CF\u23E9-\u23F3\u23F8-\u23FA\u24C2\u25AA\u25AB\u25B6\u25C0\u25FB-\u25FE\u2600-\u2605\u2607-\u2612\u2614-\u2685\u2690-\u2705\u2708-\u2712\u2714\u2716\u271D\u2721\u2728\u2733\u2734\u2744\u2747\u274C\u274E\u2753-\u2755\u2757\u2763-\u2767\u2795-\u2797\u27A1\u27B0\u27BF\u2934\u2935\u2B05-\u2B07\u2B1B\u2B1C\u2B50\u2B55\u3030\u303D\u3297\u3299]|\uD83C[\uDC00-\uDCFF\uDD0D-\uDD0F\uDD2F\uDD6C-\uDD71\uDD7E\uDD7F\uDD8E\uDD91-\uDD9A\uDDAD-\uDDE5\uDE01-\uDE0F\uDE1A\uDE2F\uDE32-\uDE3A\uDE3C-\uDE3F\uDE49-\uDFFA]|\uD83D[\uDC00-\uDD3D\uDD46-\uDE4F\uDE80-\uDEFF\uDF74-\uDF7F\uDFD5-\uDFFF]|\uD83E[\uDC0C-\uDC0F\uDC48-\uDC4F\uDC5A-\uDC5F\uDC88-\uDC8F\uDCAE-\uDCFF\uDD0C-\uDD3A\uDD3C-\uDD45\uDD47-\uDEFF]|\uD83F[\uDC00-\uDFFD])$/;
var getCodepointType = function getCodepointType(_char4, code) {
var type = CodepointType.Any;
if (_char4.search(reExtend) !== -1) {
type |= CodepointType.Extend;
}
if (code === 0x200d) {
type |= CodepointType.ZWJ;
}
if (code >= 0x1f1e6 && code <= 0x1f1ff) {
type |= CodepointType.RI;
}
if (_char4.search(rePrepend) !== -1) {
type |= CodepointType.Prepend;
}
if (_char4.search(reSpacingMark) !== -1) {
type |= CodepointType.SpacingMark;
}
if (_char4.search(reL) !== -1) {
type |= CodepointType.L;
}
if (_char4.search(reV) !== -1) {
type |= CodepointType.V;
}
if (_char4.search(reT) !== -1) {
type |= CodepointType.T;
}
if (_char4.search(reLV) !== -1) {
type |= CodepointType.LV;
}
if (_char4.search(reLVT) !== -1) {
type |= CodepointType.LVT;
}
if (_char4.search(reExtPict) !== -1) {
type |= CodepointType.ExtPict;
}
return type;
};
function intersects(x, y) {
return (x & y) !== 0;
}
var NonBoundaryPairs = [// GB6
[CodepointType.L, CodepointType.L | CodepointType.V | CodepointType.LV | CodepointType.LVT], // GB7
[CodepointType.LV | CodepointType.V, CodepointType.V | CodepointType.T], // GB8
[CodepointType.LVT | CodepointType.T, CodepointType.T], // GB9
[CodepointType.Any, CodepointType.Extend | CodepointType.ZWJ], // GB9a
[CodepointType.Any, CodepointType.SpacingMark], // GB9b
[CodepointType.Prepend, CodepointType.Any], // GB11
[CodepointType.ZWJ, CodepointType.ExtPict], // GB12 and GB13
[CodepointType.RI, CodepointType.RI]];
function isBoundaryPair(left, right) {
return NonBoundaryPairs.findIndex(function (r) {
return intersects(left, r[0]) && intersects(right, r[1]);
}) === -1;
}
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var endsWithEmojiZWJ = function endsWithEmojiZWJ(str) {
return str.search(endingEmojiZWJ) !== -1;
};
var endingRIs = /(?:\uD83C[\uDDE6-\uDDFF])+$/g;
var endsWithOddNumberOfRIs = function endsWithOddNumberOfRIs(str) {
var match = str.match(endingRIs);
if (match === null) {
return false;
} else {
// A RI is represented by a surrogate pair.
var numRIs = match[0].length / 2;
return numRIs % 2 === 1;
}
};
/**
* Shared the function with isElementType utility
*/
var isElement = function isElement(value) {
return isPlainObject(value) && Node.isNodeList(value.children) && !Editor.isEditor(value);
};
var Element = {
/**
* Check if a value implements the 'Ancestor' interface.
*/
isAncestor: function isAncestor(value) {
return isPlainObject(value) && Node.isNodeList(value.children);
},
/**
* Check if a value implements the `Element` interface.
*/
isElement: isElement,
/**
* Check if a value is an array of `Element` objects.
*/
isElementList: function isElementList(value) {
return Array.isArray(value) && value.every(function (val) {
return Element.isElement(val);
});
},
/**
* Check if a set of props is a partial of Element.
*/
isElementProps: function isElementProps(props) {
return props.children !== undefined;
},
/**
* Check if a value implements the `Element` interface and has elementKey with selected value.
* Default it check to `type` key value
*/
isElementType: function isElementType(value, elementVal) {
var elementKey = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : 'type';
return isElement(value) && value[elementKey] === elementVal;
},
/**
* Check if an element matches set of properties.
*
* Note: this checks custom properties, and it does not ensure that any
* children are equivalent.
*/
matches: function matches(element, props) {
for (var key in props) {
if (key === 'children') {
continue;
}
if (element[key] !== props[key]) {
return false;
}
}
return true;
}
};
var _excluded$4 = ["text"],
_excluded2$3 = ["text"];
function ownKeys$8(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$8(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$8(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$8(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _createForOfIteratorHelper$5(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$5(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$5(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$5(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$5(o, minLen); }
function _arrayLikeToArray$5(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
var IS_EDITOR_CACHE = new WeakMap();
var Editor = {
/**
* Get the ancestor above a location in the document.
*/
above: function above(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$voids = options.voids,
voids = _options$voids === void 0 ? false : _options$voids,
_options$mode = options.mode,
mode = _options$mode === void 0 ? 'lowest' : _options$mode,
_options$at = options.at,
at = _options$at === void 0 ? editor.selection : _options$at,
match = options.match;
if (!at) {
return;
}
var path = Editor.path(editor, at);
var reverse = mode === 'lowest';
var _iterator = _createForOfIteratorHelper$5(Editor.levels(editor, {
at: path,
voids: voids,
match: match,
reverse: reverse
})),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var _step$value = _slicedToArray(_step.value, 2),
n = _step$value[0],
p = _step$value[1];
if (!Text.isText(n) && !Path.equals(path, p)) {
return [n, p];
}
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
},
/**
* Add a custom property to the leaf text nodes in the current selection.
*
* If the selection is currently collapsed, the marks will be added to the
* `editor.marks` property instead, and applied when text is inserted next.
*/
addMark: function addMark(editor, key, value) {
editor.addMark(key, value);
},
/**
* Get the point after a location.
*/
after: function after(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var anchor = Editor.point(editor, at, {
edge: 'end'
});
var focus = Editor.end(editor, []);
var range = {
anchor: anchor,
focus: focus
};
var _options$distance = options.distance,
distance = _options$distance === void 0 ? 1 : _options$distance;
var d = 0;
var target;
var _iterator2 = _createForOfIteratorHelper$5(Editor.positions(editor, _objectSpread$8(_objectSpread$8({}, options), {}, {
at: range
}))),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var p = _step2.value;
if (d > distance) {
break;
}
if (d !== 0) {
target = p;
}
d++;
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
return target;
},
/**
* Get the point before a location.
*/
before: function before(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var anchor = Editor.start(editor, []);
var focus = Editor.point(editor, at, {
edge: 'start'
});
var range = {
anchor: anchor,
focus: focus
};
var _options$distance2 = options.distance,
distance = _options$distance2 === void 0 ? 1 : _options$distance2;
var d = 0;
var target;
var _iterator3 = _createForOfIteratorHelper$5(Editor.positions(editor, _objectSpread$8(_objectSpread$8({}, options), {}, {
at: range,
reverse: true
}))),
_step3;
try {
for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) {
var p = _step3.value;
if (d > distance) {
break;
}
if (d !== 0) {
target = p;
}
d++;
}
} catch (err) {
_iterator3.e(err);
} finally {
_iterator3.f();
}
return target;
},
/**
* Delete content in the editor backward from the current selection.
*/
deleteBackward: function deleteBackward(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$unit = options.unit,
unit = _options$unit === void 0 ? 'character' : _options$unit;
editor.deleteBackward(unit);
},
/**
* Delete content in the editor forward from the current selection.
*/
deleteForward: function deleteForward(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$unit2 = options.unit,
unit = _options$unit2 === void 0 ? 'character' : _options$unit2;
editor.deleteForward(unit);
},
/**
* Delete the content in the current selection.
*/
deleteFragment: function deleteFragment(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$direction = options.direction,
direction = _options$direction === void 0 ? 'forward' : _options$direction;
editor.deleteFragment(direction);
},
/**
* Get the start and end points of a location.
*/
edges: function edges(editor, at) {
return [Editor.start(editor, at), Editor.end(editor, at)];
},
/**
* Get the end point of a location.
*/
end: function end(editor, at) {
return Editor.point(editor, at, {
edge: 'end'
});
},
/**
* Get the first node at a location.
*/
first: function first(editor, at) {
var path = Editor.path(editor, at, {
edge: 'start'
});
return Editor.node(editor, path);
},
/**
* Get the fragment at a location.
*/
fragment: function fragment(editor, at) {
var range = Editor.range(editor, at);
var fragment = Node.fragment(editor, range);
return fragment;
},
/**
* Check if a node has block children.
*/
hasBlocks: function hasBlocks(editor, element) {
return element.children.some(function (n) {
return Editor.isBlock(editor, n);
});
},
/**
* Check if a node has inline and text children.
*/
hasInlines: function hasInlines(editor, element) {
return element.children.some(function (n) {
return Text.isText(n) || Editor.isInline(editor, n);
});
},
/**
* Check if a node has text children.
*/
hasTexts: function hasTexts(editor, element) {
return element.children.every(function (n) {
return Text.isText(n);
});
},
/**
* Insert a block break at the current selection.
*
* If the selection is currently expanded, it will be deleted first.
*/
insertBreak: function insertBreak(editor) {
editor.insertBreak();
},
/**
* Insert a fragment at the current selection.
*
* If the selection is currently expanded, it will be deleted first.
*/
insertFragment: function insertFragment(editor, fragment) {
editor.insertFragment(fragment);
},
/**
* Insert a node at the current selection.
*
* If the selection is currently expanded, it will be deleted first.
*/
insertNode: function insertNode(editor, node) {
editor.insertNode(node);
},
/**
* Insert text at the current selection.
*
* If the selection is currently expanded, it will be deleted first.
*/
insertText: function insertText(editor, text) {
editor.insertText(text);
},
/**
* Check if a value is a block `Element` object.
*/
isBlock: function isBlock(editor, value) {
return Element.isElement(value) && !editor.isInline(value);
},
/**
* Check if a value is an `Editor` object.
*/
isEditor: function isEditor(value) {
if (!isPlainObject(value)) return false;
var cachedIsEditor = IS_EDITOR_CACHE.get(value);
if (cachedIsEditor !== undefined) {
return cachedIsEditor;
}
var isEditor = typeof value.addMark === 'function' && typeof value.apply === 'function' && typeof value.deleteBackward === 'function' && typeof value.deleteForward === 'function' && typeof value.deleteFragment === 'function' && typeof value.insertBreak === 'function' && typeof value.insertFragment === 'function' && typeof value.insertNode === 'function' && typeof value.insertText === 'function' && typeof value.isInline === 'function' && typeof value.isVoid === 'function' && typeof value.normalizeNode === 'function' && typeof value.onChange === 'function' && typeof value.removeMark === 'function' && (value.marks === null || isPlainObject(value.marks)) && (value.selection === null || Range.isRange(value.selection)) && Node.isNodeList(value.children) && Operation.isOperationList(value.operations);
IS_EDITOR_CACHE.set(value, isEditor);
return isEditor;
},
/**
* Check if a point is the end point of a location.
*/
isEnd: function isEnd(editor, point, at) {
var end = Editor.end(editor, at);
return Point.equals(point, end);
},
/**
* Check if a point is an edge of a location.
*/
isEdge: function isEdge(editor, point, at) {
return Editor.isStart(editor, point, at) || Editor.isEnd(editor, point, at);
},
/**
* Check if an element is empty, accounting for void nodes.
*/
isEmpty: function isEmpty(editor, element) {
var children = element.children;
var _children = _slicedToArray(children, 1),
first = _children[0];
return children.length === 0 || children.length === 1 && Text.isText(first) && first.text === '' && !editor.isVoid(element);
},
/**
* Check if a value is an inline `Element` object.
*/
isInline: function isInline(editor, value) {
return Element.isElement(value) && editor.isInline(value);
},
/**
* Check if the editor is currently normalizing after each operation.
*/
isNormalizing: function isNormalizing(editor) {
var isNormalizing = NORMALIZING.get(editor);
return isNormalizing === undefined ? true : isNormalizing;
},
/**
* Check if a point is the start point of a location.
*/
isStart: function isStart(editor, point, at) {
// PERF: If the offset isn't `0` we know it's not the start.
if (point.offset !== 0) {
return false;
}
var start = Editor.start(editor, at);
return Point.equals(point, start);
},
/**
* Check if a value is a void `Element` object.
*/
isVoid: function isVoid(editor, value) {
return Element.isElement(value) && editor.isVoid(value);
},
/**
* Get the last node at a location.
*/
last: function last(editor, at) {
var path = Editor.path(editor, at, {
edge: 'end'
});
return Editor.node(editor, path);
},
/**
* Get the leaf text node at a location.
*/
leaf: function leaf(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var path = Editor.path(editor, at, options);
var node = Node.leaf(editor, path);
return [node, path];
},
/**
* Iterate through all of the levels at a location.
*/
levels: /*#__PURE__*/regenerator.mark(function levels(editor) {
var options,
_options$at2,
at,
_options$reverse,
reverse,
_options$voids2,
voids,
match,
levels,
path,
_iterator4,
_step4,
_step4$value,
n,
p,
_args = arguments;
return regenerator.wrap(function levels$(_context) {
while (1) {
switch (_context.prev = _context.next) {
case 0:
options = _args.length > 1 && _args[1] !== undefined ? _args[1] : {};
_options$at2 = options.at, at = _options$at2 === void 0 ? editor.selection : _options$at2, _options$reverse = options.reverse, reverse = _options$reverse === void 0 ? false : _options$reverse, _options$voids2 = options.voids, voids = _options$voids2 === void 0 ? false : _options$voids2;
match = options.match;
if (match == null) {
match = function match() {
return true;
};
}
if (at) {
_context.next = 6;
break;
}
return _context.abrupt("return");
case 6:
levels = [];
path = Editor.path(editor, at);
_iterator4 = _createForOfIteratorHelper$5(Node.levels(editor, path));
_context.prev = 9;
_iterator4.s();
case 11:
if ((_step4 = _iterator4.n()).done) {
_context.next = 20;
break;
}
_step4$value = _slicedToArray(_step4.value, 2), n = _step4$value[0], p = _step4$value[1];
if (match(n, p)) {
_context.next = 15;
break;
}
return _context.abrupt("continue", 18);
case 15:
levels.push([n, p]);
if (!(!voids && Editor.isVoid(editor, n))) {
_context.next = 18;
break;
}
return _context.abrupt("break", 20);
case 18:
_context.next = 11;
break;
case 20:
_context.next = 25;
break;
case 22:
_context.prev = 22;
_context.t0 = _context["catch"](9);
_iterator4.e(_context.t0);
case 25:
_context.prev = 25;
_iterator4.f();
return _context.finish(25);
case 28:
if (reverse) {
levels.reverse();
}
return _context.delegateYield(levels, "t1", 30);
case 30:
case "end":
return _context.stop();
}
}
}, levels, null, [[9, 22, 25, 28]]);
}),
/**
* Get the marks that would be added to text at the current selection.
*/
marks: function marks(editor) {
var marks = editor.marks,
selection = editor.selection;
if (!selection) {
return null;
}
if (marks) {
return marks;
}
if (Range.isExpanded(selection)) {
var _Editor$nodes = Editor.nodes(editor, {
match: Text.isText
}),
_Editor$nodes2 = _slicedToArray(_Editor$nodes, 1),
match = _Editor$nodes2[0];
if (match) {
var _match = _slicedToArray(match, 1),
_node = _match[0];
_node.text;
var _rest = _objectWithoutProperties(_node, _excluded$4);
return _rest;
} else {
return {};
}
}
var anchor = selection.anchor;
var path = anchor.path;
var _Editor$leaf = Editor.leaf(editor, path),
_Editor$leaf2 = _slicedToArray(_Editor$leaf, 1),
node = _Editor$leaf2[0];
if (anchor.offset === 0) {
var prev = Editor.previous(editor, {
at: path,
match: Text.isText
});
var block = Editor.above(editor, {
match: function match(n) {
return Editor.isBlock(editor, n);
}
});
if (prev && block) {
var _prev = _slicedToArray(prev, 2),
prevNode = _prev[0],
prevPath = _prev[1];
var _block = _slicedToArray(block, 2),
blockPath = _block[1];
if (Path.isAncestor(blockPath, prevPath)) {
node = prevNode;
}
}
}
var _node2 = node;
_node2.text;
var rest = _objectWithoutProperties(_node2, _excluded2$3);
return rest;
},
/**
* Get the matching node in the branch of the document after a location.
*/
next: function next(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$mode2 = options.mode,
mode = _options$mode2 === void 0 ? 'lowest' : _options$mode2,
_options$voids3 = options.voids,
voids = _options$voids3 === void 0 ? false : _options$voids3;
var match = options.match,
_options$at3 = options.at,
at = _options$at3 === void 0 ? editor.selection : _options$at3;
if (!at) {
return;
}
var pointAfterLocation = Editor.after(editor, at, {
voids: voids
});
if (!pointAfterLocation) return;
var _Editor$last = Editor.last(editor, []),
_Editor$last2 = _slicedToArray(_Editor$last, 2),
to = _Editor$last2[1];
var span = [pointAfterLocation.path, to];
if (Path.isPath(at) && at.length === 0) {
throw new Error("Cannot get the next node from the root node!");
}
if (match == null) {
if (Path.isPath(at)) {
var _Editor$parent = Editor.parent(editor, at),
_Editor$parent2 = _slicedToArray(_Editor$parent, 1),
parent = _Editor$parent2[0];
match = function match(n) {
return parent.children.includes(n);
};
} else {
match = function match() {
return true;
};
}
}
var _Editor$nodes3 = Editor.nodes(editor, {
at: span,
match: match,
mode: mode,
voids: voids
}),
_Editor$nodes4 = _slicedToArray(_Editor$nodes3, 1),
next = _Editor$nodes4[0];
return next;
},
/**
* Get the node at a location.
*/
node: function node(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var path = Editor.path(editor, at, options);
var node = Node.get(editor, path);
return [node, path];
},
/**
* Iterate through all of the nodes in the Editor.
*/
nodes: /*#__PURE__*/regenerator.mark(function nodes(editor) {
var options,
_options$at4,
at,
_options$mode3,
mode,
_options$universal,
universal,
_options$reverse2,
reverse,
_options$voids4,
voids,
match,
from,
to,
first,
last,
nodeEntries,
matches,
hit,
_iterator5,
_step5,
_step5$value,
node,
path,
isLower,
emit,
_args2 = arguments;
return regenerator.wrap(function nodes$(_context2) {
while (1) {
switch (_context2.prev = _context2.next) {
case 0:
options = _args2.length > 1 && _args2[1] !== undefined ? _args2[1] : {};
_options$at4 = options.at, at = _options$at4 === void 0 ? editor.selection : _options$at4, _options$mode3 = options.mode, mode = _options$mode3 === void 0 ? 'all' : _options$mode3, _options$universal = options.universal, universal = _options$universal === void 0 ? false : _options$universal, _options$reverse2 = options.reverse, reverse = _options$reverse2 === void 0 ? false : _options$reverse2, _options$voids4 = options.voids, voids = _options$voids4 === void 0 ? false : _options$voids4;
match = options.match;
if (!match) {
match = function match() {
return true;
};
}
if (at) {
_context2.next = 6;
break;
}
return _context2.abrupt("return");
case 6:
if (Span.isSpan(at)) {
from = at[0];
to = at[1];
} else {
first = Editor.path(editor, at, {
edge: 'start'
});
last = Editor.path(editor, at, {
edge: 'end'
});
from = reverse ? last : first;
to = reverse ? first : last;
}
nodeEntries = Node.nodes(editor, {
reverse: reverse,
from: from,
to: to,
pass: function pass(_ref) {
var _ref2 = _slicedToArray(_ref, 1),
n = _ref2[0];
return voids ? false : Editor.isVoid(editor, n);
}
});
matches = [];
_iterator5 = _createForOfIteratorHelper$5(nodeEntries);
_context2.prev = 10;
_iterator5.s();
case 12:
if ((_step5 = _iterator5.n()).done) {
_context2.next = 37;
break;
}
_step5$value = _slicedToArray(_step5.value, 2), node = _step5$value[0], path = _step5$value[1];
isLower = hit && Path.compare(path, hit[1]) === 0; // In highest mode any node lower than the last hit is not a match.
if (!(mode === 'highest' && isLower)) {
_context2.next = 17;
break;
}
return _context2.abrupt("continue", 35);
case 17:
if (match(node, path)) {
_context2.next = 23;
break;
}
if (!(universal && !isLower && Text.isText(node))) {
_context2.next = 22;
break;
}
return _context2.abrupt("return");
case 22:
return _context2.abrupt("continue", 35);
case 23:
if (!(mode === 'lowest' && isLower)) {
_context2.next = 26;
break;
}
hit = [node, path];
return _context2.abrupt("continue", 35);
case 26:
// In lowest mode we emit the last hit, once it's guaranteed lowest.
emit = mode === 'lowest' ? hit : [node, path];
if (!emit) {
_context2.next = 34;
break;
}
if (!universal) {
_context2.next = 32;
break;
}
matches.push(emit);
_context2.next = 34;
break;
case 32:
_context2.next = 34;
return emit;
case 34:
hit = [node, path];
case 35:
_context2.next = 12;
break;
case 37:
_context2.next = 42;
break;
case 39:
_context2.prev = 39;
_context2.t0 = _context2["catch"](10);
_iterator5.e(_context2.t0);
case 42:
_context2.prev = 42;
_iterator5.f();
return _context2.finish(42);
case 45:
if (!(mode === 'lowest' && hit)) {
_context2.next = 52;
break;
}
if (!universal) {
_context2.next = 50;
break;
}
matches.push(hit);
_context2.next = 52;
break;
case 50:
_context2.next = 52;
return hit;
case 52:
if (!universal) {
_context2.next = 54;
break;
}
return _context2.delegateYield(matches, "t1", 54);
case 54:
case "end":
return _context2.stop();
}
}
}, nodes, null, [[10, 39, 42, 45]]);
}),
/**
* Normalize any dirty objects in the editor.
*/
normalize: function normalize(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$force = options.force,
force = _options$force === void 0 ? false : _options$force;
var getDirtyPaths = function getDirtyPaths(editor) {
return DIRTY_PATHS.get(editor) || [];
};
var getDirtyPathKeys = function getDirtyPathKeys(editor) {
return DIRTY_PATH_KEYS.get(editor) || new Set();
};
var popDirtyPath = function popDirtyPath(editor) {
var path = getDirtyPaths(editor).pop();
var key = path.join(',');
getDirtyPathKeys(editor)["delete"](key);
return path;
};
if (!Editor.isNormalizing(editor)) {
return;
}
if (force) {
var allPaths = Array.from(Node.nodes(editor), function (_ref3) {
var _ref4 = _slicedToArray(_ref3, 2),
p = _ref4[1];
return p;
});
var allPathKeys = new Set(allPaths.map(function (p) {
return p.join(',');
}));
DIRTY_PATHS.set(editor, allPaths);
DIRTY_PATH_KEYS.set(editor, allPathKeys);
}
if (getDirtyPaths(editor).length === 0) {
return;
}
Editor.withoutNormalizing(editor, function () {
/*
Fix dirty elements with no children.
editor.normalizeNode() does fix this, but some normalization fixes also require it to work.
Running an initial pass avoids the catch-22 race condition.
*/
var _iterator6 = _createForOfIteratorHelper$5(getDirtyPaths(editor)),
_step6;
try {
for (_iterator6.s(); !(_step6 = _iterator6.n()).done;) {
var _dirtyPath = _step6.value;
if (Node.has(editor, _dirtyPath)) {
var _entry = Editor.node(editor, _dirtyPath);
var _entry2 = _slicedToArray(_entry, 2),
node = _entry2[0],
_ = _entry2[1];
/*
The default normalizer inserts an empty text node in this scenario, but it can be customised.
So there is some risk here.
As long as the normalizer only inserts child nodes for this case it is safe to do in any order;
by definition adding children to an empty node can't cause other paths to change.
*/
if (Element.isElement(node) && node.children.length === 0) {
editor.normalizeNode(_entry);
}
}
}
} catch (err) {
_iterator6.e(err);
} finally {
_iterator6.f();
}
var max = getDirtyPaths(editor).length * 42; // HACK: better way?
var m = 0;
while (getDirtyPaths(editor).length !== 0) {
if (m > max) {
throw new Error("\n Could not completely normalize the editor after ".concat(max, " iterations! This is usually due to incorrect normalization logic that leaves a node in an invalid state.\n "));
}
var dirtyPath = popDirtyPath(editor); // If the node doesn't exist in the tree, it does not need to be normalized.
if (Node.has(editor, dirtyPath)) {
var entry = Editor.node(editor, dirtyPath);
editor.normalizeNode(entry);
}
m++;
}
});
},
/**
* Get the parent node of a location.
*/
parent: function parent(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var path = Editor.path(editor, at, options);
var parentPath = Path.parent(path);
var entry = Editor.node(editor, parentPath);
return entry;
},
/**
* Get the path of a location.
*/
path: function path(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var depth = options.depth,
edge = options.edge;
if (Path.isPath(at)) {
if (edge === 'start') {
var _Node$first = Node.first(editor, at),
_Node$first2 = _slicedToArray(_Node$first, 2),
firstPath = _Node$first2[1];
at = firstPath;
} else if (edge === 'end') {
var _Node$last = Node.last(editor, at),
_Node$last2 = _slicedToArray(_Node$last, 2),
lastPath = _Node$last2[1];
at = lastPath;
}
}
if (Range.isRange(at)) {
if (edge === 'start') {
at = Range.start(at);
} else if (edge === 'end') {
at = Range.end(at);
} else {
at = Path.common(at.anchor.path, at.focus.path);
}
}
if (Point.isPoint(at)) {
at = at.path;
}
if (depth != null) {
at = at.slice(0, depth);
}
return at;
},
hasPath: function hasPath(editor, path) {
return Node.has(editor, path);
},
/**
* Create a mutable ref for a `Path` object, which will stay in sync as new
* operations are applied to the editor.
*/
pathRef: function pathRef(editor, path) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var _options$affinity = options.affinity,
affinity = _options$affinity === void 0 ? 'forward' : _options$affinity;
var ref = {
current: path,
affinity: affinity,
unref: function unref() {
var current = ref.current;
var pathRefs = Editor.pathRefs(editor);
pathRefs["delete"](ref);
ref.current = null;
return current;
}
};
var refs = Editor.pathRefs(editor);
refs.add(ref);
return ref;
},
/**
* Get the set of currently tracked path refs of the editor.
*/
pathRefs: function pathRefs(editor) {
var refs = PATH_REFS.get(editor);
if (!refs) {
refs = new Set();
PATH_REFS.set(editor, refs);
}
return refs;
},
/**
* Get the start or end point of a location.
*/
point: function point(editor, at) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var _options$edge = options.edge,
edge = _options$edge === void 0 ? 'start' : _options$edge;
if (Path.isPath(at)) {
var path;
if (edge === 'end') {
var _Node$last3 = Node.last(editor, at),
_Node$last4 = _slicedToArray(_Node$last3, 2),
lastPath = _Node$last4[1];
path = lastPath;
} else {
var _Node$first3 = Node.first(editor, at),
_Node$first4 = _slicedToArray(_Node$first3, 2),
firstPath = _Node$first4[1];
path = firstPath;
}
var node = Node.get(editor, path);
if (!Text.isText(node)) {
throw new Error("Cannot get the ".concat(edge, " point in the node at path [").concat(at, "] because it has no ").concat(edge, " text node."));
}
return {
path: path,
offset: edge === 'end' ? node.text.length : 0
};
}
if (Range.isRange(at)) {
var _Range$edges = Range.edges(at),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
start = _Range$edges2[0],
end = _Range$edges2[1];
return edge === 'start' ? start : end;
}
return at;
},
/**
* Create a mutable ref for a `Point` object, which will stay in sync as new
* operations are applied to the editor.
*/
pointRef: function pointRef(editor, point) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var _options$affinity2 = options.affinity,
affinity = _options$affinity2 === void 0 ? 'forward' : _options$affinity2;
var ref = {
current: point,
affinity: affinity,
unref: function unref() {
var current = ref.current;
var pointRefs = Editor.pointRefs(editor);
pointRefs["delete"](ref);
ref.current = null;
return current;
}
};
var refs = Editor.pointRefs(editor);
refs.add(ref);
return ref;
},
/**
* Get the set of currently tracked point refs of the editor.
*/
pointRefs: function pointRefs(editor) {
var refs = POINT_REFS.get(editor);
if (!refs) {
refs = new Set();
POINT_REFS.set(editor, refs);
}
return refs;
},
/**
* Return all the positions in `at` range where a `Point` can be placed.
*
* By default, moves forward by individual offsets at a time, but
* the `unit` option can be used to to move by character, word, line, or block.
*
* The `reverse` option can be used to change iteration direction.
*
* Note: By default void nodes are treated as a single point and iteration
* will not happen inside their content unless you pass in true for the
* `voids` option, then iteration will occur.
*/
positions: /*#__PURE__*/regenerator.mark(function positions(editor) {
var options,
_options$at5,
at,
_options$unit3,
unit,
_options$reverse3,
reverse,
_options$voids5,
voids,
range,
_Range$edges3,
_Range$edges4,
start,
end,
first,
isNewBlock,
blockText,
distance,
leafTextRemaining,
leafTextOffset,
_iterator7,
_step7,
_step7$value,
node,
path,
e,
s,
isFirst,
calcDistance,
_args3 = arguments;
return regenerator.wrap(function positions$(_context3) {
while (1) {
switch (_context3.prev = _context3.next) {
case 0:
calcDistance = function _calcDistance(text, unit, reverse) {
if (unit === 'character') {
return getCharacterDistance(text, reverse);
} else if (unit === 'word') {
return getWordDistance(text, reverse);
} else if (unit === 'line' || unit === 'block') {
return text.length;
}
return 1;
};
options = _args3.length > 1 && _args3[1] !== undefined ? _args3[1] : {};
_options$at5 = options.at, at = _options$at5 === void 0 ? editor.selection : _options$at5, _options$unit3 = options.unit, unit = _options$unit3 === void 0 ? 'offset' : _options$unit3, _options$reverse3 = options.reverse, reverse = _options$reverse3 === void 0 ? false : _options$reverse3, _options$voids5 = options.voids, voids = _options$voids5 === void 0 ? false : _options$voids5;
if (at) {
_context3.next = 5;
break;
}
return _context3.abrupt("return");
case 5:
/**
* Algorithm notes:
*
* Each step `distance` is dynamic depending on the underlying text
* and the `unit` specified. Each step, e.g., a line or word, may
* span multiple text nodes, so we iterate through the text both on
* two levels in step-sync:
*
* `leafText` stores the text on a text leaf level, and is advanced
* through using the counters `leafTextOffset` and `leafTextRemaining`.
*
* `blockText` stores the text on a block level, and is shortened
* by `distance` every time it is advanced.
*
* We only maintain a window of one blockText and one leafText because
* a block node always appears before all of its leaf nodes.
*/
range = Editor.range(editor, at);
_Range$edges3 = Range.edges(range), _Range$edges4 = _slicedToArray(_Range$edges3, 2), start = _Range$edges4[0], end = _Range$edges4[1];
first = reverse ? end : start;
isNewBlock = false;
blockText = '';
distance = 0; // Distance for leafText to catch up to blockText.
leafTextRemaining = 0;
leafTextOffset = 0; // Iterate through all nodes in range, grabbing entire textual content
// of block nodes in blockText, and text nodes in leafText.
// Exploits the fact that nodes are sequenced in such a way that we first
// encounter the block node, then all of its text nodes, so when iterating
// through the blockText and leafText we just need to remember a window of
// one block node and leaf node, respectively.
_iterator7 = _createForOfIteratorHelper$5(Editor.nodes(editor, {
at: at,
reverse: reverse,
voids: voids
}));
_context3.prev = 14;
_iterator7.s();
case 16:
if ((_step7 = _iterator7.n()).done) {
_context3.next = 51;
break;
}
_step7$value = _slicedToArray(_step7.value, 2), node = _step7$value[0], path = _step7$value[1];
if (!Element.isElement(node)) {
_context3.next = 26;
break;
}
if (!(!voids && editor.isVoid(node))) {
_context3.next = 23;
break;
}
_context3.next = 22;
return Editor.start(editor, path);
case 22:
return _context3.abrupt("continue", 49);
case 23:
if (!editor.isInline(node)) {
_context3.next = 25;
break;
}
return _context3.abrupt("continue", 49);
case 25:
// Block element node - set `blockText` to its text content.
if (Editor.hasInlines(editor, node)) {
// We always exhaust block nodes before encountering a new one:
// console.assert(blockText === '',
// `blockText='${blockText}' - `+
// `not exhausted before new block node`, path)
// Ensure range considered is capped to `range`, in the
// start/end edge cases where block extends beyond range.
// Equivalent to this, but presumably more performant:
// blockRange = Editor.range(editor, ...Editor.edges(editor, path))
// blockRange = Range.intersection(range, blockRange) // intersect
// blockText = Editor.string(editor, blockRange, { voids })
e = Path.isAncestor(path, end.path) ? end : Editor.end(editor, path);
s = Path.isAncestor(path, start.path) ? start : Editor.start(editor, path);
blockText = Editor.string(editor, {
anchor: s,
focus: e
}, {
voids: voids
});
isNewBlock = true;
}
case 26:
if (!Text.isText(node)) {
_context3.next = 49;
break;
}
isFirst = Path.equals(path, first.path); // Proof that we always exhaust text nodes before encountering a new one:
// console.assert(leafTextRemaining <= 0,
// `leafTextRemaining=${leafTextRemaining} - `+
// `not exhausted before new leaf text node`, path)
// Reset `leafText` counters for new text node.
if (isFirst) {
leafTextRemaining = reverse ? first.offset : node.text.length - first.offset;
leafTextOffset = first.offset; // Works for reverse too.
} else {
leafTextRemaining = node.text.length;
leafTextOffset = reverse ? leafTextRemaining : 0;
} // Yield position at the start of node (potentially).
if (!(isFirst || isNewBlock || unit === 'offset')) {
_context3.next = 33;
break;
}
_context3.next = 32;
return {
path: path,
offset: leafTextOffset
};
case 32:
isNewBlock = false;
case 33:
if (!(distance === 0)) {
_context3.next = 39;
break;
}
if (!(blockText === '')) {
_context3.next = 37;
break;
}
return _context3.abrupt("break", 49);
case 37:
distance = calcDistance(blockText, unit, reverse); // Split the string at the previously found distance and use the
// remaining string for the next iteration.
blockText = splitByCharacterDistance(blockText, distance, reverse)[1];
case 39:
// Advance `leafText` by the current `distance`.
leafTextOffset = reverse ? leafTextOffset - distance : leafTextOffset + distance;
leafTextRemaining = leafTextRemaining - distance; // If `leafText` is exhausted, break to get a new leaf node
// and set distance to the overflow amount, so we'll (maybe)
// catch up to blockText in the next leaf text node.
if (!(leafTextRemaining < 0)) {
_context3.next = 44;
break;
}
distance = -leafTextRemaining;
return _context3.abrupt("break", 49);
case 44:
// Successfully walked `distance` offsets through `leafText`
// to catch up with `blockText`, so we can reset `distance`
// and yield this position in this node.
distance = 0;
_context3.next = 47;
return {
path: path,
offset: leafTextOffset
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focus: end
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_args = arguments;
return regenerator.wrap(function ancestors$(_context) {
while (1) {
switch (_context.prev = _context.next) {
case 0:
options = _args.length > 2 && _args[2] !== undefined ? _args[2] : {};
_iterator = _createForOfIteratorHelper$4(Path.ancestors(path, options));
_context.prev = 2;
_iterator.s();
case 4:
if ((_step = _iterator.n()).done) {
_context.next = 12;
break;
}
p = _step.value;
n = Node.ancestor(root, p);
entry = [n, p];
_context.next = 10;
return entry;
case 10:
_context.next = 4;
break;
case 12:
_context.next = 17;
break;
case 14:
_context.prev = 14;
_context.t0 = _context["catch"](2);
_iterator.e(_context.t0);
case 17:
_context.prev = 17;
_iterator.f();
return _context.finish(17);
case 20:
case "end":
return _context.stop();
}
}
}, ancestors, null, [[2, 14, 17, 20]]);
}),
/**
* Get the child of a node at a specific index.
*/
child: function child(root, index) {
if (Text.isText(root)) {
throw new Error("Cannot get the child of a text node: ".concat(JSON.stringify(root)));
}
var c = root.children[index];
if (c == null) {
throw new Error("Cannot get child at index `".concat(index, "` in node: ").concat(JSON.stringify(root)));
}
return c;
},
/**
* Iterate over the children of a node at a specific path.
*/
children: /*#__PURE__*/regenerator.mark(function children(root, path) {
var options,
_options$reverse,
reverse,
ancestor,
children,
index,
child,
childPath,
_args2 = arguments;
return regenerator.wrap(function children$(_context2) {
while (1) {
switch (_context2.prev = _context2.next) {
case 0:
options = _args2.length > 2 && _args2[2] !== undefined ? _args2[2] : {};
_options$reverse = options.reverse, reverse = _options$reverse === void 0 ? false : _options$reverse;
ancestor = Node.ancestor(root, path);
children = ancestor.children;
index = reverse ? children.length - 1 : 0;
case 5:
if (!(reverse ? index >= 0 : index < children.length)) {
_context2.next = 13;
break;
}
child = Node.child(ancestor, index);
childPath = path.concat(index);
_context2.next = 10;
return [child, childPath];
case 10:
index = reverse ? index - 1 : index + 1;
_context2.next = 5;
break;
case 13:
case "end":
return _context2.stop();
}
}
}, children);
}),
/**
* Get an entry for the common ancesetor node of two paths.
*/
common: function common(root, path, another) {
var p = Path.common(path, another);
var n = Node.get(root, p);
return [n, p];
},
/**
* Get the node at a specific path, asserting that it's a descendant node.
*/
descendant: function descendant(root, path) {
var node = Node.get(root, path);
if (Editor.isEditor(node)) {
throw new Error("Cannot get the descendant node at path [".concat(path, "] because it refers to the root editor node instead: ").concat(node));
}
return node;
},
/**
* Return a generator of all the descendant node entries inside a root node.
*/
descendants: /*#__PURE__*/regenerator.mark(function descendants(root) {
var options,
_iterator2,
_step2,
_step2$value,
node,
path,
_args3 = arguments;
return regenerator.wrap(function descendants$(_context3) {
while (1) {
switch (_context3.prev = _context3.next) {
case 0:
options = _args3.length > 1 && _args3[1] !== undefined ? _args3[1] : {};
_iterator2 = _createForOfIteratorHelper$4(Node.nodes(root, options));
_context3.prev = 2;
_iterator2.s();
case 4:
if ((_step2 = _iterator2.n()).done) {
_context3.next = 11;
break;
}
_step2$value = _slicedToArray(_step2.value, 2), node = _step2$value[0], path = _step2$value[1];
if (!(path.length !== 0)) {
_context3.next = 9;
break;
}
_context3.next = 9;
return [node, path];
case 9:
_context3.next = 4;
break;
case 11:
_context3.next = 16;
break;
case 13:
_context3.prev = 13;
_context3.t0 = _context3["catch"](2);
_iterator2.e(_context3.t0);
case 16:
_context3.prev = 16;
_iterator2.f();
return _context3.finish(16);
case 19:
case "end":
return _context3.stop();
}
}
}, descendants, null, [[2, 13, 16, 19]]);
}),
/**
* Return a generator of all the element nodes inside a root node. Each iteration
* will return an `ElementEntry` tuple consisting of `[Element, Path]`. If the
* root node is an element it will be included in the iteration as well.
*/
elements: /*#__PURE__*/regenerator.mark(function elements(root) {
var options,
_iterator3,
_step3,
_step3$value,
node,
path,
_args4 = arguments;
return regenerator.wrap(function elements$(_context4) {
while (1) {
switch (_context4.prev = _context4.next) {
case 0:
options = _args4.length > 1 && _args4[1] !== undefined ? _args4[1] : {};
_iterator3 = _createForOfIteratorHelper$4(Node.nodes(root, options));
_context4.prev = 2;
_iterator3.s();
case 4:
if ((_step3 = _iterator3.n()).done) {
_context4.next = 11;
break;
}
_step3$value = _slicedToArray(_step3.value, 2), node = _step3$value[0], path = _step3$value[1];
if (!Element.isElement(node)) {
_context4.next = 9;
break;
}
_context4.next = 9;
return [node, path];
case 9:
_context4.next = 4;
break;
case 11:
_context4.next = 16;
break;
case 13:
_context4.prev = 13;
_context4.t0 = _context4["catch"](2);
_iterator3.e(_context4.t0);
case 16:
_context4.prev = 16;
_iterator3.f();
return _context4.finish(16);
case 19:
case "end":
return _context4.stop();
}
}
}, elements, null, [[2, 13, 16, 19]]);
}),
/**
* Extract props from a Node.
*/
extractProps: function extractProps(node) {
if (Element.isAncestor(node)) {
node.children;
var properties = _objectWithoutProperties(node, _excluded$3);
return properties;
} else {
node.text;
var _properties = _objectWithoutProperties(node, _excluded2$2);
return _properties;
}
},
/**
* Get the first node entry in a root node from a path.
*/
first: function first(root, path) {
var p = path.slice();
var n = Node.get(root, p);
while (n) {
if (Text.isText(n) || n.children.length === 0) {
break;
} else {
n = n.children[0];
p.push(0);
}
}
return [n, p];
},
/**
* Get the sliced fragment represented by a range inside a root node.
*/
fragment: function fragment(root, range) {
if (Text.isText(root)) {
throw new Error("Cannot get a fragment starting from a root text node: ".concat(JSON.stringify(root)));
}
var newRoot = fn({
children: root.children
}, function (r) {
var _Range$edges = Range.edges(range),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
start = _Range$edges2[0],
end = _Range$edges2[1];
var nodeEntries = Node.nodes(r, {
reverse: true,
pass: function pass(_ref) {
var _ref2 = _slicedToArray(_ref, 2),
path = _ref2[1];
return !Range.includes(range, path);
}
});
var _iterator4 = _createForOfIteratorHelper$4(nodeEntries),
_step4;
try {
for (_iterator4.s(); !(_step4 = _iterator4.n()).done;) {
var _step4$value = _slicedToArray(_step4.value, 2),
path = _step4$value[1];
if (!Range.includes(range, path)) {
var parent = Node.parent(r, path);
var index = path[path.length - 1];
parent.children.splice(index, 1);
}
if (Path.equals(path, end.path)) {
var leaf = Node.leaf(r, path);
leaf.text = leaf.text.slice(0, end.offset);
}
if (Path.equals(path, start.path)) {
var _leaf = Node.leaf(r, path);
_leaf.text = _leaf.text.slice(start.offset);
}
}
} catch (err) {
_iterator4.e(err);
} finally {
_iterator4.f();
}
if (Editor.isEditor(r)) {
r.selection = null;
}
});
return newRoot.children;
},
/**
* Get the descendant node referred to by a specific path. If the path is an
* empty array, it refers to the root node itself.
*/
get: function get(root, path) {
var node = root;
for (var i = 0; i < path.length; i++) {
var p = path[i];
if (Text.isText(node) || !node.children[p]) {
throw new Error("Cannot find a descendant at path [".concat(path, "] in node: ").concat(JSON.stringify(root)));
}
node = node.children[p];
}
return node;
},
/**
* Check if a descendant node exists at a specific path.
*/
has: function has(root, path) {
var node = root;
for (var i = 0; i < path.length; i++) {
var p = path[i];
if (Text.isText(node) || !node.children[p]) {
return false;
}
node = node.children[p];
}
return true;
},
/**
* Check if a value implements the `Node` interface.
*/
isNode: function isNode(value) {
return Text.isText(value) || Element.isElement(value) || Editor.isEditor(value);
},
/**
* Check if a value is a list of `Node` objects.
*/
isNodeList: function isNodeList(value) {
if (!Array.isArray(value)) {
return false;
}
var cachedResult = IS_NODE_LIST_CACHE.get(value);
if (cachedResult !== undefined) {
return cachedResult;
}
var isNodeList = value.every(function (val) {
return Node.isNode(val);
});
IS_NODE_LIST_CACHE.set(value, isNodeList);
return isNodeList;
},
/**
* Get the last node entry in a root node from a path.
*/
last: function last(root, path) {
var p = path.slice();
var n = Node.get(root, p);
while (n) {
if (Text.isText(n) || n.children.length === 0) {
break;
} else {
var i = n.children.length - 1;
n = n.children[i];
p.push(i);
}
}
return [n, p];
},
/**
* Get the node at a specific path, ensuring it's a leaf text node.
*/
leaf: function leaf(root, path) {
var node = Node.get(root, path);
if (!Text.isText(node)) {
throw new Error("Cannot get the leaf node at path [".concat(path, "] because it refers to a non-leaf node: ").concat(node));
}
return node;
},
/**
* Return a generator of the in a branch of the tree, from a specific path.
*
* By default the order is top-down, from lowest to highest node in the tree,
* but you can pass the `reverse: true` option to go bottom-up.
*/
levels: /*#__PURE__*/regenerator.mark(function levels(root, path) {
var options,
_iterator5,
_step5,
p,
n,
_args5 = arguments;
return regenerator.wrap(function levels$(_context5) {
while (1) {
switch (_context5.prev = _context5.next) {
case 0:
options = _args5.length > 2 && _args5[2] !== undefined ? _args5[2] : {};
_iterator5 = _createForOfIteratorHelper$4(Path.levels(path, options));
_context5.prev = 2;
_iterator5.s();
case 4:
if ((_step5 = _iterator5.n()).done) {
_context5.next = 11;
break;
}
p = _step5.value;
n = Node.get(root, p);
_context5.next = 9;
return [n, p];
case 9:
_context5.next = 4;
break;
case 11:
_context5.next = 16;
break;
case 13:
_context5.prev = 13;
_context5.t0 = _context5["catch"](2);
_iterator5.e(_context5.t0);
case 16:
_context5.prev = 16;
_iterator5.f();
return _context5.finish(16);
case 19:
case "end":
return _context5.stop();
}
}
}, levels, null, [[2, 13, 16, 19]]);
}),
/**
* Check if a node matches a set of props.
*/
matches: function matches(node, props) {
return Element.isElement(node) && Element.isElementProps(props) && Element.matches(node, props) || Text.isText(node) && Text.isTextProps(props) && Text.matches(node, props);
},
/**
* Return a generator of all the node entries of a root node. Each entry is
* returned as a `[Node, Path]` tuple, with the path referring to the node's
* position inside the root node.
*/
nodes: /*#__PURE__*/regenerator.mark(function nodes(root) {
var options,
pass,
_options$reverse2,
reverse,
_options$from,
from,
to,
visited,
p,
n,
nextIndex,
newPath,
_newPath,
_args6 = arguments;
return regenerator.wrap(function nodes$(_context6) {
while (1) {
switch (_context6.prev = _context6.next) {
case 0:
options = _args6.length > 1 && _args6[1] !== undefined ? _args6[1] : {};
pass = options.pass, _options$reverse2 = options.reverse, reverse = _options$reverse2 === void 0 ? false : _options$reverse2;
_options$from = options.from, from = _options$from === void 0 ? [] : _options$from, to = options.to;
visited = new Set();
p = [];
n = root;
case 6:
if (!(to && (reverse ? Path.isBefore(p, to) : Path.isAfter(p, to)))) {
_context6.next = 9;
break;
}
return _context6.abrupt("break", 37);
case 9:
if (visited.has(n)) {
_context6.next = 12;
break;
}
_context6.next = 12;
return [n, p];
case 12:
if (!(!visited.has(n) && !Text.isText(n) && n.children.length !== 0 && (pass == null || pass([n, p]) === false))) {
_context6.next = 19;
break;
}
visited.add(n);
nextIndex = reverse ? n.children.length - 1 : 0;
if (Path.isAncestor(p, from)) {
nextIndex = from[p.length];
}
p = p.concat(nextIndex);
n = Node.get(root, p);
return _context6.abrupt("continue", 6);
case 19:
if (!(p.length === 0)) {
_context6.next = 21;
break;
}
return _context6.abrupt("break", 37);
case 21:
if (reverse) {
_context6.next = 27;
break;
}
newPath = Path.next(p);
if (!Node.has(root, newPath)) {
_context6.next = 27;
break;
}
p = newPath;
n = Node.get(root, p);
return _context6.abrupt("continue", 6);
case 27:
if (!(reverse && p[p.length - 1] !== 0)) {
_context6.next = 32;
break;
}
_newPath = Path.previous(p);
p = _newPath;
n = Node.get(root, p);
return _context6.abrupt("continue", 6);
case 32:
// Otherwise we're going upward...
p = Path.parent(p);
n = Node.get(root, p);
visited.add(n);
_context6.next = 6;
break;
case 37:
case "end":
return _context6.stop();
}
}
}, nodes);
}),
/**
* Get the parent of a node at a specific path.
*/
parent: function parent(root, path) {
var parentPath = Path.parent(path);
var p = Node.get(root, parentPath);
if (Text.isText(p)) {
throw new Error("Cannot get the parent of path [".concat(path, "] because it does not exist in the root."));
}
return p;
},
/**
* Get the concatenated text string of a node's content.
*
* Note that this will not include spaces or line breaks between block nodes.
* It is not a user-facing string, but a string for performing offset-related
* computations for a node.
*/
string: function string(node) {
if (Text.isText(node)) {
return node.text;
} else {
return node.children.map(Node.string).join('');
}
},
/**
* Return a generator of all leaf text nodes in a root node.
*/
texts: /*#__PURE__*/regenerator.mark(function texts(root) {
var options,
_iterator6,
_step6,
_step6$value,
node,
path,
_args7 = arguments;
return regenerator.wrap(function texts$(_context7) {
while (1) {
switch (_context7.prev = _context7.next) {
case 0:
options = _args7.length > 1 && _args7[1] !== undefined ? _args7[1] : {};
_iterator6 = _createForOfIteratorHelper$4(Node.nodes(root, options));
_context7.prev = 2;
_iterator6.s();
case 4:
if ((_step6 = _iterator6.n()).done) {
_context7.next = 11;
break;
}
_step6$value = _slicedToArray(_step6.value, 2), node = _step6$value[0], path = _step6$value[1];
if (!Text.isText(node)) {
_context7.next = 9;
break;
}
_context7.next = 9;
return [node, path];
case 9:
_context7.next = 4;
break;
case 11:
_context7.next = 16;
break;
case 13:
_context7.prev = 13;
_context7.t0 = _context7["catch"](2);
_iterator6.e(_context7.t0);
case 16:
_context7.prev = 16;
_iterator6.f();
return _context7.finish(16);
case 19:
case "end":
return _context7.stop();
}
}
}, texts, null, [[2, 13, 16, 19]]);
})
};
function ownKeys$7(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$7(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$7(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$7(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var Operation = {
/**
* Check of a value is a `NodeOperation` object.
*/
isNodeOperation: function isNodeOperation(value) {
return Operation.isOperation(value) && value.type.endsWith('_node');
},
/**
* Check of a value is an `Operation` object.
*/
isOperation: function isOperation(value) {
if (!isPlainObject(value)) {
return false;
}
switch (value.type) {
case 'insert_node':
return Path.isPath(value.path) && Node.isNode(value.node);
case 'insert_text':
return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);
case 'merge_node':
return typeof value.position === 'number' && Path.isPath(value.path) && isPlainObject(value.properties);
case 'move_node':
return Path.isPath(value.path) && Path.isPath(value.newPath);
case 'remove_node':
return Path.isPath(value.path) && Node.isNode(value.node);
case 'remove_text':
return typeof value.offset === 'number' && typeof value.text === 'string' && Path.isPath(value.path);
case 'set_node':
return Path.isPath(value.path) && isPlainObject(value.properties) && isPlainObject(value.newProperties);
case 'set_selection':
return value.properties === null && Range.isRange(value.newProperties) || value.newProperties === null && Range.isRange(value.properties) || isPlainObject(value.properties) && isPlainObject(value.newProperties);
case 'split_node':
return Path.isPath(value.path) && typeof value.position === 'number' && isPlainObject(value.properties);
default:
return false;
}
},
/**
* Check if a value is a list of `Operation` objects.
*/
isOperationList: function isOperationList(value) {
return Array.isArray(value) && value.every(function (val) {
return Operation.isOperation(val);
});
},
/**
* Check of a value is a `SelectionOperation` object.
*/
isSelectionOperation: function isSelectionOperation(value) {
return Operation.isOperation(value) && value.type.endsWith('_selection');
},
/**
* Check of a value is a `TextOperation` object.
*/
isTextOperation: function isTextOperation(value) {
return Operation.isOperation(value) && value.type.endsWith('_text');
},
/**
* Invert an operation, returning a new operation that will exactly undo the
* original when applied.
*/
inverse: function inverse(op) {
switch (op.type) {
case 'insert_node':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'remove_node'
});
}
case 'insert_text':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'remove_text'
});
}
case 'merge_node':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'split_node',
path: Path.previous(op.path)
});
}
case 'move_node':
{
var newPath = op.newPath,
path = op.path; // PERF: in this case the move operation is a no-op anyways.
if (Path.equals(newPath, path)) {
return op;
} // If the move happens completely within a single parent the path and
// newPath are stable with respect to each other.
if (Path.isSibling(path, newPath)) {
return _objectSpread$7(_objectSpread$7({}, op), {}, {
path: newPath,
newPath: path
});
} // If the move does not happen within a single parent it is possible
// for the move to impact the true path to the location where the node
// was removed from and where it was inserted. We have to adjust for this
// and find the original path. We can accomplish this (only in non-sibling)
// moves by looking at the impact of the move operation on the node
// after the original move path.
var inversePath = Path.transform(path, op);
var inverseNewPath = Path.transform(Path.next(path), op);
return _objectSpread$7(_objectSpread$7({}, op), {}, {
path: inversePath,
newPath: inverseNewPath
});
}
case 'remove_node':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'insert_node'
});
}
case 'remove_text':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'insert_text'
});
}
case 'set_node':
{
var properties = op.properties,
newProperties = op.newProperties;
return _objectSpread$7(_objectSpread$7({}, op), {}, {
properties: newProperties,
newProperties: properties
});
}
case 'set_selection':
{
var _properties = op.properties,
_newProperties = op.newProperties;
if (_properties == null) {
return _objectSpread$7(_objectSpread$7({}, op), {}, {
properties: _newProperties,
newProperties: null
});
} else if (_newProperties == null) {
return _objectSpread$7(_objectSpread$7({}, op), {}, {
properties: null,
newProperties: _properties
});
} else {
return _objectSpread$7(_objectSpread$7({}, op), {}, {
properties: _newProperties,
newProperties: _properties
});
}
}
case 'split_node':
{
return _objectSpread$7(_objectSpread$7({}, op), {}, {
type: 'merge_node',
path: Path.next(op.path)
});
}
}
}
};
var Path = {
/**
* Get a list of ancestor paths for a given path.
*
* The paths are sorted from deepest to shallowest ancestor. However, if the
* `reverse: true` option is passed, they are reversed.
*/
ancestors: function ancestors(path) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$reverse = options.reverse,
reverse = _options$reverse === void 0 ? false : _options$reverse;
var paths = Path.levels(path, options);
if (reverse) {
paths = paths.slice(1);
} else {
paths = paths.slice(0, -1);
}
return paths;
},
/**
* Get the common ancestor path of two paths.
*/
common: function common(path, another) {
var common = [];
for (var i = 0; i < path.length && i < another.length; i++) {
var av = path[i];
var bv = another[i];
if (av !== bv) {
break;
}
common.push(av);
}
return common;
},
/**
* Compare a path to another, returning an integer indicating whether the path
* was before, at, or after the other.
*
* Note: Two paths of unequal length can still receive a `0` result if one is
* directly above or below the other. If you want exact matching, use
* [[Path.equals]] instead.
*/
compare: function compare(path, another) {
var min = Math.min(path.length, another.length);
for (var i = 0; i < min; i++) {
if (path[i] < another[i]) return -1;
if (path[i] > another[i]) return 1;
}
return 0;
},
/**
* Check if a path ends after one of the indexes in another.
*/
endsAfter: function endsAfter(path, another) {
var i = path.length - 1;
var as = path.slice(0, i);
var bs = another.slice(0, i);
var av = path[i];
var bv = another[i];
return Path.equals(as, bs) && av > bv;
},
/**
* Check if a path ends at one of the indexes in another.
*/
endsAt: function endsAt(path, another) {
var i = path.length;
var as = path.slice(0, i);
var bs = another.slice(0, i);
return Path.equals(as, bs);
},
/**
* Check if a path ends before one of the indexes in another.
*/
endsBefore: function endsBefore(path, another) {
var i = path.length - 1;
var as = path.slice(0, i);
var bs = another.slice(0, i);
var av = path[i];
var bv = another[i];
return Path.equals(as, bs) && av < bv;
},
/**
* Check if a path is exactly equal to another.
*/
equals: function equals(path, another) {
return path.length === another.length && path.every(function (n, i) {
return n === another[i];
});
},
/**
* Check if the path of previous sibling node exists
*/
hasPrevious: function hasPrevious(path) {
return path[path.length - 1] > 0;
},
/**
* Check if a path is after another.
*/
isAfter: function isAfter(path, another) {
return Path.compare(path, another) === 1;
},
/**
* Check if a path is an ancestor of another.
*/
isAncestor: function isAncestor(path, another) {
return path.length < another.length && Path.compare(path, another) === 0;
},
/**
* Check if a path is before another.
*/
isBefore: function isBefore(path, another) {
return Path.compare(path, another) === -1;
},
/**
* Check if a path is a child of another.
*/
isChild: function isChild(path, another) {
return path.length === another.length + 1 && Path.compare(path, another) === 0;
},
/**
* Check if a path is equal to or an ancestor of another.
*/
isCommon: function isCommon(path, another) {
return path.length <= another.length && Path.compare(path, another) === 0;
},
/**
* Check if a path is a descendant of another.
*/
isDescendant: function isDescendant(path, another) {
return path.length > another.length && Path.compare(path, another) === 0;
},
/**
* Check if a path is the parent of another.
*/
isParent: function isParent(path, another) {
return path.length + 1 === another.length && Path.compare(path, another) === 0;
},
/**
* Check is a value implements the `Path` interface.
*/
isPath: function isPath(value) {
return Array.isArray(value) && (value.length === 0 || typeof value[0] === 'number');
},
/**
* Check if a path is a sibling of another.
*/
isSibling: function isSibling(path, another) {
if (path.length !== another.length) {
return false;
}
var as = path.slice(0, -1);
var bs = another.slice(0, -1);
var al = path[path.length - 1];
var bl = another[another.length - 1];
return al !== bl && Path.equals(as, bs);
},
/**
* Get a list of paths at every level down to a path. Note: this is the same
* as `Path.ancestors`, but including the path itself.
*
* The paths are sorted from shallowest to deepest. However, if the `reverse:
* true` option is passed, they are reversed.
*/
levels: function levels(path) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$reverse2 = options.reverse,
reverse = _options$reverse2 === void 0 ? false : _options$reverse2;
var list = [];
for (var i = 0; i <= path.length; i++) {
list.push(path.slice(0, i));
}
if (reverse) {
list.reverse();
}
return list;
},
/**
* Given a path, get the path to the next sibling node.
*/
next: function next(path) {
if (path.length === 0) {
throw new Error("Cannot get the next path of a root path [".concat(path, "], because it has no next index."));
}
var last = path[path.length - 1];
return path.slice(0, -1).concat(last + 1);
},
/**
* Returns whether this operation can affect paths or not. Used as an
* optimization when updating dirty paths during normalization
*
* NOTE: This *must* be kept in sync with the implementation of 'transform'
* below
*/
operationCanTransformPath: function operationCanTransformPath(operation) {
switch (operation.type) {
case 'insert_node':
case 'remove_node':
case 'merge_node':
case 'split_node':
case 'move_node':
return true;
default:
return false;
}
},
/**
* Given a path, return a new path referring to the parent node above it.
*/
parent: function parent(path) {
if (path.length === 0) {
throw new Error("Cannot get the parent path of the root path [".concat(path, "]."));
}
return path.slice(0, -1);
},
/**
* Given a path, get the path to the previous sibling node.
*/
previous: function previous(path) {
if (path.length === 0) {
throw new Error("Cannot get the previous path of a root path [".concat(path, "], because it has no previous index."));
}
var last = path[path.length - 1];
if (last <= 0) {
throw new Error("Cannot get the previous path of a first child path [".concat(path, "] because it would result in a negative index."));
}
return path.slice(0, -1).concat(last - 1);
},
/**
* Get a path relative to an ancestor.
*/
relative: function relative(path, ancestor) {
if (!Path.isAncestor(ancestor, path) && !Path.equals(path, ancestor)) {
throw new Error("Cannot get the relative path of [".concat(path, "] inside ancestor [").concat(ancestor, "], because it is not above or equal to the path."));
}
return path.slice(ancestor.length);
},
/**
* Transform a path by an operation.
*/
transform: function transform(path, operation) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
return fn(path, function (p) {
var _options$affinity = options.affinity,
affinity = _options$affinity === void 0 ? 'forward' : _options$affinity; // PERF: Exit early if the operation is guaranteed not to have an effect.
if (!path || (path === null || path === void 0 ? void 0 : path.length) === 0) {
return;
}
if (p === null) {
return null;
}
switch (operation.type) {
case 'insert_node':
{
var op = operation.path;
if (Path.equals(op, p) || Path.endsBefore(op, p) || Path.isAncestor(op, p)) {
p[op.length - 1] += 1;
}
break;
}
case 'remove_node':
{
var _op = operation.path;
if (Path.equals(_op, p) || Path.isAncestor(_op, p)) {
return null;
} else if (Path.endsBefore(_op, p)) {
p[_op.length - 1] -= 1;
}
break;
}
case 'merge_node':
{
var _op2 = operation.path,
position = operation.position;
if (Path.equals(_op2, p) || Path.endsBefore(_op2, p)) {
p[_op2.length - 1] -= 1;
} else if (Path.isAncestor(_op2, p)) {
p[_op2.length - 1] -= 1;
p[_op2.length] += position;
}
break;
}
case 'split_node':
{
var _op3 = operation.path,
_position = operation.position;
if (Path.equals(_op3, p)) {
if (affinity === 'forward') {
p[p.length - 1] += 1;
} else if (affinity === 'backward') ; else {
return null;
}
} else if (Path.endsBefore(_op3, p)) {
p[_op3.length - 1] += 1;
} else if (Path.isAncestor(_op3, p) && path[_op3.length] >= _position) {
p[_op3.length - 1] += 1;
p[_op3.length] -= _position;
}
break;
}
case 'move_node':
{
var _op4 = operation.path,
onp = operation.newPath; // If the old and new path are the same, it's a no-op.
if (Path.equals(_op4, onp)) {
return;
}
if (Path.isAncestor(_op4, p) || Path.equals(_op4, p)) {
var copy = onp.slice();
if (Path.endsBefore(_op4, onp) && _op4.length < onp.length) {
copy[_op4.length - 1] -= 1;
}
return copy.concat(p.slice(_op4.length));
} else if (Path.isSibling(_op4, onp) && (Path.isAncestor(onp, p) || Path.equals(onp, p))) {
if (Path.endsBefore(_op4, p)) {
p[_op4.length - 1] -= 1;
} else {
p[_op4.length - 1] += 1;
}
} else if (Path.endsBefore(onp, p) || Path.equals(onp, p) || Path.isAncestor(onp, p)) {
if (Path.endsBefore(_op4, p)) {
p[_op4.length - 1] -= 1;
}
p[onp.length - 1] += 1;
} else if (Path.endsBefore(_op4, p)) {
if (Path.equals(onp, p)) {
p[onp.length - 1] += 1;
}
p[_op4.length - 1] -= 1;
}
break;
}
}
});
}
};
var PathRef = {
/**
* Transform the path ref's current value by an operation.
*/
transform: function transform(ref, op) {
var current = ref.current,
affinity = ref.affinity;
if (current == null) {
return;
}
var path = Path.transform(current, op, {
affinity: affinity
});
ref.current = path;
if (path == null) {
ref.unref();
}
}
};
function ownKeys$6(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$6(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$6(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$6(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var Point = {
/**
* Compare a point to another, returning an integer indicating whether the
* point was before, at, or after the other.
*/
compare: function compare(point, another) {
var result = Path.compare(point.path, another.path);
if (result === 0) {
if (point.offset < another.offset) return -1;
if (point.offset > another.offset) return 1;
return 0;
}
return result;
},
/**
* Check if a point is after another.
*/
isAfter: function isAfter(point, another) {
return Point.compare(point, another) === 1;
},
/**
* Check if a point is before another.
*/
isBefore: function isBefore(point, another) {
return Point.compare(point, another) === -1;
},
/**
* Check if a point is exactly equal to another.
*/
equals: function equals(point, another) {
// PERF: ensure the offsets are equal first since they are cheaper to check.
return point.offset === another.offset && Path.equals(point.path, another.path);
},
/**
* Check if a value implements the `Point` interface.
*/
isPoint: function isPoint(value) {
return isPlainObject(value) && typeof value.offset === 'number' && Path.isPath(value.path);
},
/**
* Transform a point by an operation.
*/
transform: function transform(point, op) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
return fn(point, function (p) {
if (p === null) {
return null;
}
var _options$affinity = options.affinity,
affinity = _options$affinity === void 0 ? 'forward' : _options$affinity;
var path = p.path,
offset = p.offset;
switch (op.type) {
case 'insert_node':
case 'move_node':
{
p.path = Path.transform(path, op, options);
break;
}
case 'insert_text':
{
if (Path.equals(op.path, path) && op.offset <= offset) {
p.offset += op.text.length;
}
break;
}
case 'merge_node':
{
if (Path.equals(op.path, path)) {
p.offset += op.position;
}
p.path = Path.transform(path, op, options);
break;
}
case 'remove_text':
{
if (Path.equals(op.path, path) && op.offset <= offset) {
p.offset -= Math.min(offset - op.offset, op.text.length);
}
break;
}
case 'remove_node':
{
if (Path.equals(op.path, path) || Path.isAncestor(op.path, path)) {
return null;
}
p.path = Path.transform(path, op, options);
break;
}
case 'split_node':
{
if (Path.equals(op.path, path)) {
if (op.position === offset && affinity == null) {
return null;
} else if (op.position < offset || op.position === offset && affinity === 'forward') {
p.offset -= op.position;
p.path = Path.transform(path, op, _objectSpread$6(_objectSpread$6({}, options), {}, {
affinity: 'forward'
}));
}
} else {
p.path = Path.transform(path, op, options);
}
break;
}
}
});
}
};
var PointRef = {
/**
* Transform the point ref's current value by an operation.
*/
transform: function transform(ref, op) {
var current = ref.current,
affinity = ref.affinity;
if (current == null) {
return;
}
var point = Point.transform(current, op, {
affinity: affinity
});
ref.current = point;
if (point == null) {
ref.unref();
}
}
};
var _excluded$2 = ["anchor", "focus"];
function ownKeys$5(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$5(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$5(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$5(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var Range = {
/**
* Get the start and end points of a range, in the order in which they appear
* in the document.
*/
edges: function edges(range) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$reverse = options.reverse,
reverse = _options$reverse === void 0 ? false : _options$reverse;
var anchor = range.anchor,
focus = range.focus;
return Range.isBackward(range) === reverse ? [anchor, focus] : [focus, anchor];
},
/**
* Get the end point of a range.
*/
end: function end(range) {
var _Range$edges = Range.edges(range),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
end = _Range$edges2[1];
return end;
},
/**
* Check if a range is exactly equal to another.
*/
equals: function equals(range, another) {
return Point.equals(range.anchor, another.anchor) && Point.equals(range.focus, another.focus);
},
/**
* Check if a range includes a path, a point or part of another range.
*/
includes: function includes(range, target) {
if (Range.isRange(target)) {
if (Range.includes(range, target.anchor) || Range.includes(range, target.focus)) {
return true;
}
var _Range$edges3 = Range.edges(range),
_Range$edges4 = _slicedToArray(_Range$edges3, 2),
rs = _Range$edges4[0],
re = _Range$edges4[1];
var _Range$edges5 = Range.edges(target),
_Range$edges6 = _slicedToArray(_Range$edges5, 2),
ts = _Range$edges6[0],
te = _Range$edges6[1];
return Point.isBefore(rs, ts) && Point.isAfter(re, te);
}
var _Range$edges7 = Range.edges(range),
_Range$edges8 = _slicedToArray(_Range$edges7, 2),
start = _Range$edges8[0],
end = _Range$edges8[1];
var isAfterStart = false;
var isBeforeEnd = false;
if (Point.isPoint(target)) {
isAfterStart = Point.compare(target, start) >= 0;
isBeforeEnd = Point.compare(target, end) <= 0;
} else {
isAfterStart = Path.compare(target, start.path) >= 0;
isBeforeEnd = Path.compare(target, end.path) <= 0;
}
return isAfterStart && isBeforeEnd;
},
/**
* Get the intersection of a range with another.
*/
intersection: function intersection(range, another) {
range.anchor;
range.focus;
var rest = _objectWithoutProperties(range, _excluded$2);
var _Range$edges9 = Range.edges(range),
_Range$edges10 = _slicedToArray(_Range$edges9, 2),
s1 = _Range$edges10[0],
e1 = _Range$edges10[1];
var _Range$edges11 = Range.edges(another),
_Range$edges12 = _slicedToArray(_Range$edges11, 2),
s2 = _Range$edges12[0],
e2 = _Range$edges12[1];
var start = Point.isBefore(s1, s2) ? s2 : s1;
var end = Point.isBefore(e1, e2) ? e1 : e2;
if (Point.isBefore(end, start)) {
return null;
} else {
return _objectSpread$5({
anchor: start,
focus: end
}, rest);
}
},
/**
* Check if a range is backward, meaning that its anchor point appears in the
* document _after_ its focus point.
*/
isBackward: function isBackward(range) {
var anchor = range.anchor,
focus = range.focus;
return Point.isAfter(anchor, focus);
},
/**
* Check if a range is collapsed, meaning that both its anchor and focus
* points refer to the exact same position in the document.
*/
isCollapsed: function isCollapsed(range) {
var anchor = range.anchor,
focus = range.focus;
return Point.equals(anchor, focus);
},
/**
* Check if a range is expanded.
*
* This is the opposite of [[Range.isCollapsed]] and is provided for legibility.
*/
isExpanded: function isExpanded(range) {
return !Range.isCollapsed(range);
},
/**
* Check if a range is forward.
*
* This is the opposite of [[Range.isBackward]] and is provided for legibility.
*/
isForward: function isForward(range) {
return !Range.isBackward(range);
},
/**
* Check if a value implements the [[Range]] interface.
*/
isRange: function isRange(value) {
return isPlainObject(value) && Point.isPoint(value.anchor) && Point.isPoint(value.focus);
},
/**
* Iterate through all of the point entries in a range.
*/
points: /*#__PURE__*/regenerator.mark(function points(range) {
return regenerator.wrap(function points$(_context) {
while (1) {
switch (_context.prev = _context.next) {
case 0:
_context.next = 2;
return [range.anchor, 'anchor'];
case 2:
_context.next = 4;
return [range.focus, 'focus'];
case 4:
case "end":
return _context.stop();
}
}
}, points);
}),
/**
* Get the start point of a range.
*/
start: function start(range) {
var _Range$edges13 = Range.edges(range),
_Range$edges14 = _slicedToArray(_Range$edges13, 1),
start = _Range$edges14[0];
return start;
},
/**
* Transform a range by an operation.
*/
transform: function transform(range, op) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
return fn(range, function (r) {
if (r === null) {
return null;
}
var _options$affinity = options.affinity,
affinity = _options$affinity === void 0 ? 'inward' : _options$affinity;
var affinityAnchor;
var affinityFocus;
if (affinity === 'inward') {
// If the range is collapsed, make sure to use the same affinity to
// avoid the two points passing each other and expanding in the opposite
// direction
var isCollapsed = Range.isCollapsed(r);
if (Range.isForward(r)) {
affinityAnchor = 'forward';
affinityFocus = isCollapsed ? affinityAnchor : 'backward';
} else {
affinityAnchor = 'backward';
affinityFocus = isCollapsed ? affinityAnchor : 'forward';
}
} else if (affinity === 'outward') {
if (Range.isForward(r)) {
affinityAnchor = 'backward';
affinityFocus = 'forward';
} else {
affinityAnchor = 'forward';
affinityFocus = 'backward';
}
} else {
affinityAnchor = affinity;
affinityFocus = affinity;
}
var anchor = Point.transform(r.anchor, op, {
affinity: affinityAnchor
});
var focus = Point.transform(r.focus, op, {
affinity: affinityFocus
});
if (!anchor || !focus) {
return null;
}
r.anchor = anchor;
r.focus = focus;
});
}
};
var RangeRef = {
/**
* Transform the range ref's current value by an operation.
*/
transform: function transform(ref, op) {
var current = ref.current,
affinity = ref.affinity;
if (current == null) {
return;
}
var path = Range.transform(current, op, {
affinity: affinity
});
ref.current = path;
if (path == null) {
ref.unref();
}
}
};
/*
Custom deep equal comparison for Slate nodes.
We don't need general purpose deep equality;
Slate only supports plain values, Arrays, and nested objects.
Complex values nested inside Arrays are not supported.
Slate objects are designed to be serialised, so
missing keys are deliberately normalised to undefined.
*/
var isDeepEqual = function isDeepEqual(node, another) {
for (var key in node) {
var a = node[key];
var b = another[key];
if (isPlainObject(a) && isPlainObject(b)) {
if (!isDeepEqual(a, b)) return false;
} else if (Array.isArray(a) && Array.isArray(b)) {
if (a.length !== b.length) return false;
for (var i = 0; i < a.length; i++) {
if (a[i] !== b[i]) return false;
}
} else if (a !== b) {
return false;
}
}
/*
Deep object equality is only necessary in one direction; in the reverse direction
we are only looking for keys that are missing.
As above, undefined keys are normalised to missing.
*/
for (var _key in another) {
if (node[_key] === undefined && another[_key] !== undefined) {
return false;
}
}
return true;
};
var _excluded$1 = ["text"],
_excluded2$1 = ["anchor", "focus"];
function _createForOfIteratorHelper$3(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$3(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$3(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$3(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$3(o, minLen); }
function _arrayLikeToArray$3(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
function ownKeys$4(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$4(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$4(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$4(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var Text = {
/**
* Check if two text nodes are equal.
*
* When loose is set, the text is not compared. This is
* used to check whether sibling text nodes can be merged.
*/
equals: function equals(text, another) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var _options$loose = options.loose,
loose = _options$loose === void 0 ? false : _options$loose;
function omitText(obj) {
obj.text;
var rest = _objectWithoutProperties(obj, _excluded$1);
return rest;
}
return isDeepEqual(loose ? omitText(text) : text, loose ? omitText(another) : another);
},
/**
* Check if a value implements the `Text` interface.
*/
isText: function isText(value) {
return isPlainObject(value) && typeof value.text === 'string';
},
/**
* Check if a value is a list of `Text` objects.
*/
isTextList: function isTextList(value) {
return Array.isArray(value) && value.every(function (val) {
return Text.isText(val);
});
},
/**
* Check if some props are a partial of Text.
*/
isTextProps: function isTextProps(props) {
return props.text !== undefined;
},
/**
* Check if an text matches set of properties.
*
* Note: this is for matching custom properties, and it does not ensure that
* the `text` property are two nodes equal.
*/
matches: function matches(text, props) {
for (var key in props) {
if (key === 'text') {
continue;
}
if (!text.hasOwnProperty(key) || text[key] !== props[key]) {
return false;
}
}
return true;
},
/**
* Get the leaves for a text node given decorations.
*/
decorations: function decorations(node, _decorations) {
var leaves = [_objectSpread$4({}, node)];
var _iterator = _createForOfIteratorHelper$3(_decorations),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var dec = _step.value;
var anchor = dec.anchor,
focus = dec.focus,
rest = _objectWithoutProperties(dec, _excluded2$1);
var _Range$edges = Range.edges(dec),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
start = _Range$edges2[0],
end = _Range$edges2[1];
var next = [];
var o = 0;
var _iterator2 = _createForOfIteratorHelper$3(leaves),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var leaf = _step2.value;
var length = leaf.text.length;
var offset = o;
o += length; // If the range encompases the entire leaf, add the range.
if (start.offset <= offset && end.offset >= o) {
Object.assign(leaf, rest);
next.push(leaf);
continue;
} // If the range expanded and match the leaf, or starts after, or ends before it, continue.
if (start.offset !== end.offset && (start.offset === o || end.offset === offset) || start.offset > o || end.offset < offset || end.offset === offset && offset !== 0) {
next.push(leaf);
continue;
} // Otherwise we need to split the leaf, at the start, end, or both,
// and add the range to the middle intersecting section. Do the end
// split first since we don't need to update the offset that way.
var middle = leaf;
var before = void 0;
var after = void 0;
if (end.offset < o) {
var off = end.offset - offset;
after = _objectSpread$4(_objectSpread$4({}, middle), {}, {
text: middle.text.slice(off)
});
middle = _objectSpread$4(_objectSpread$4({}, middle), {}, {
text: middle.text.slice(0, off)
});
}
if (start.offset > offset) {
var _off = start.offset - offset;
before = _objectSpread$4(_objectSpread$4({}, middle), {}, {
text: middle.text.slice(0, _off)
});
middle = _objectSpread$4(_objectSpread$4({}, middle), {}, {
text: middle.text.slice(_off)
});
}
Object.assign(middle, rest);
if (before) {
next.push(before);
}
next.push(middle);
if (after) {
next.push(after);
}
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
leaves = next;
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
return leaves;
}
};
function ownKeys$3(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$3(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$3(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$3(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _createForOfIteratorHelper$2(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$2(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$2(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$2(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$2(o, minLen); }
function _arrayLikeToArray$2(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
var applyToDraft = function applyToDraft(editor, selection, op) {
switch (op.type) {
case 'insert_node':
{
var path = op.path,
node = op.node;
var parent = Node.parent(editor, path);
var index = path[path.length - 1];
if (index > parent.children.length) {
throw new Error("Cannot apply an \"insert_node\" operation at path [".concat(path, "] because the destination is past the end of the node."));
}
parent.children.splice(index, 0, node);
if (selection) {
var _iterator = _createForOfIteratorHelper$2(Range.points(selection)),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var _step$value = _slicedToArray(_step.value, 2),
point = _step$value[0],
key = _step$value[1];
selection[key] = Point.transform(point, op);
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
}
break;
}
case 'insert_text':
{
var _path = op.path,
offset = op.offset,
text = op.text;
if (text.length === 0) break;
var _node = Node.leaf(editor, _path);
var before = _node.text.slice(0, offset);
var after = _node.text.slice(offset);
_node.text = before + text + after;
if (selection) {
var _iterator2 = _createForOfIteratorHelper$2(Range.points(selection)),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var _step2$value = _slicedToArray(_step2.value, 2),
_point = _step2$value[0],
_key = _step2$value[1];
selection[_key] = Point.transform(_point, op);
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
}
break;
}
case 'merge_node':
{
var _path2 = op.path;
var _node2 = Node.get(editor, _path2);
var prevPath = Path.previous(_path2);
var prev = Node.get(editor, prevPath);
var _parent = Node.parent(editor, _path2);
var _index = _path2[_path2.length - 1];
if (Text.isText(_node2) && Text.isText(prev)) {
prev.text += _node2.text;
} else if (!Text.isText(_node2) && !Text.isText(prev)) {
var _prev$children;
(_prev$children = prev.children).push.apply(_prev$children, _toConsumableArray(_node2.children));
} else {
throw new Error("Cannot apply a \"merge_node\" operation at path [".concat(_path2, "] to nodes of different interfaces: ").concat(_node2, " ").concat(prev));
}
_parent.children.splice(_index, 1);
if (selection) {
var _iterator3 = _createForOfIteratorHelper$2(Range.points(selection)),
_step3;
try {
for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) {
var _step3$value = _slicedToArray(_step3.value, 2),
_point2 = _step3$value[0],
_key2 = _step3$value[1];
selection[_key2] = Point.transform(_point2, op);
}
} catch (err) {
_iterator3.e(err);
} finally {
_iterator3.f();
}
}
break;
}
case 'move_node':
{
var _path3 = op.path,
newPath = op.newPath;
if (Path.isAncestor(_path3, newPath)) {
throw new Error("Cannot move a path [".concat(_path3, "] to new path [").concat(newPath, "] because the destination is inside itself."));
}
var _node3 = Node.get(editor, _path3);
var _parent2 = Node.parent(editor, _path3);
var _index2 = _path3[_path3.length - 1]; // This is tricky, but since the `path` and `newPath` both refer to
// the same snapshot in time, there's a mismatch. After either
// removing the original position, the second step's path can be out
// of date. So instead of using the `op.newPath` directly, we
// transform `op.path` to ascertain what the `newPath` would be after
// the operation was applied.
_parent2.children.splice(_index2, 1);
var truePath = Path.transform(_path3, op);
var newParent = Node.get(editor, Path.parent(truePath));
var newIndex = truePath[truePath.length - 1];
newParent.children.splice(newIndex, 0, _node3);
if (selection) {
var _iterator4 = _createForOfIteratorHelper$2(Range.points(selection)),
_step4;
try {
for (_iterator4.s(); !(_step4 = _iterator4.n()).done;) {
var _step4$value = _slicedToArray(_step4.value, 2),
_point3 = _step4$value[0],
_key3 = _step4$value[1];
selection[_key3] = Point.transform(_point3, op);
}
} catch (err) {
_iterator4.e(err);
} finally {
_iterator4.f();
}
}
break;
}
case 'remove_node':
{
var _path4 = op.path;
var _index3 = _path4[_path4.length - 1];
var _parent3 = Node.parent(editor, _path4);
_parent3.children.splice(_index3, 1); // Transform all of the points in the value, but if the point was in the
// node that was removed we need to update the range or remove it.
if (selection) {
var _iterator5 = _createForOfIteratorHelper$2(Range.points(selection)),
_step5;
try {
for (_iterator5.s(); !(_step5 = _iterator5.n()).done;) {
var _step5$value = _slicedToArray(_step5.value, 2),
_point4 = _step5$value[0],
_key4 = _step5$value[1];
var result = Point.transform(_point4, op);
if (selection != null && result != null) {
selection[_key4] = result;
} else {
var _prev = void 0;
var next = void 0;
var _iterator6 = _createForOfIteratorHelper$2(Node.texts(editor)),
_step6;
try {
for (_iterator6.s(); !(_step6 = _iterator6.n()).done;) {
var _step6$value = _slicedToArray(_step6.value, 2),
n = _step6$value[0],
p = _step6$value[1];
if (Path.compare(p, _path4) === -1) {
_prev = [n, p];
} else {
next = [n, p];
break;
}
}
} catch (err) {
_iterator6.e(err);
} finally {
_iterator6.f();
}
var preferNext = false;
if (_prev && next) {
if (Path.equals(next[1], _path4)) {
preferNext = !Path.hasPrevious(next[1]);
} else {
preferNext = Path.common(_prev[1], _path4).length < Path.common(next[1], _path4).length;
}
}
if (_prev && !preferNext) {
_point4.path = _prev[1];
_point4.offset = _prev[0].text.length;
} else if (next) {
_point4.path = next[1];
_point4.offset = 0;
} else {
selection = null;
}
}
}
} catch (err) {
_iterator5.e(err);
} finally {
_iterator5.f();
}
}
break;
}
case 'remove_text':
{
var _path5 = op.path,
_offset = op.offset,
_text = op.text;
if (_text.length === 0) break;
var _node4 = Node.leaf(editor, _path5);
var _before = _node4.text.slice(0, _offset);
var _after = _node4.text.slice(_offset + _text.length);
_node4.text = _before + _after;
if (selection) {
var _iterator7 = _createForOfIteratorHelper$2(Range.points(selection)),
_step7;
try {
for (_iterator7.s(); !(_step7 = _iterator7.n()).done;) {
var _step7$value = _slicedToArray(_step7.value, 2),
_point5 = _step7$value[0],
_key5 = _step7$value[1];
selection[_key5] = Point.transform(_point5, op);
}
} catch (err) {
_iterator7.e(err);
} finally {
_iterator7.f();
}
}
break;
}
case 'set_node':
{
var _path6 = op.path,
properties = op.properties,
newProperties = op.newProperties;
if (_path6.length === 0) {
throw new Error("Cannot set properties on the root node!");
}
var _node5 = Node.get(editor, _path6);
for (var _key6 in newProperties) {
if (_key6 === 'children' || _key6 === 'text') {
throw new Error("Cannot set the \"".concat(_key6, "\" property of nodes!"));
}
var value = newProperties[_key6];
if (value == null) {
delete _node5[_key6];
} else {
_node5[_key6] = value;
}
} // properties that were previously defined, but are now missing, must be deleted
for (var _key7 in properties) {
if (!newProperties.hasOwnProperty(_key7)) {
delete _node5[_key7];
}
}
break;
}
case 'set_selection':
{
var _newProperties = op.newProperties;
if (_newProperties == null) {
selection = _newProperties;
} else {
if (selection == null) {
if (!Range.isRange(_newProperties)) {
throw new Error("Cannot apply an incomplete \"set_selection\" operation properties ".concat(JSON.stringify(_newProperties), " when there is no current selection."));
}
selection = _objectSpread$3({}, _newProperties);
}
for (var _key8 in _newProperties) {
var _value = _newProperties[_key8];
if (_value == null) {
if (_key8 === 'anchor' || _key8 === 'focus') {
throw new Error("Cannot remove the \"".concat(_key8, "\" selection property"));
}
delete selection[_key8];
} else {
selection[_key8] = _value;
}
}
}
break;
}
case 'split_node':
{
var _path7 = op.path,
position = op.position,
_properties = op.properties;
if (_path7.length === 0) {
throw new Error("Cannot apply a \"split_node\" operation at path [".concat(_path7, "] because the root node cannot be split."));
}
var _node6 = Node.get(editor, _path7);
var _parent4 = Node.parent(editor, _path7);
var _index4 = _path7[_path7.length - 1];
var newNode;
if (Text.isText(_node6)) {
var _before2 = _node6.text.slice(0, position);
var _after2 = _node6.text.slice(position);
_node6.text = _before2;
newNode = _objectSpread$3(_objectSpread$3({}, _properties), {}, {
text: _after2
});
} else {
var _before3 = _node6.children.slice(0, position);
var _after3 = _node6.children.slice(position);
_node6.children = _before3;
newNode = _objectSpread$3(_objectSpread$3({}, _properties), {}, {
children: _after3
});
}
_parent4.children.splice(_index4 + 1, 0, newNode);
if (selection) {
var _iterator8 = _createForOfIteratorHelper$2(Range.points(selection)),
_step8;
try {
for (_iterator8.s(); !(_step8 = _iterator8.n()).done;) {
var _step8$value = _slicedToArray(_step8.value, 2),
_point6 = _step8$value[0],
_key9 = _step8$value[1];
selection[_key9] = Point.transform(_point6, op);
}
} catch (err) {
_iterator8.e(err);
} finally {
_iterator8.f();
}
}
break;
}
}
return selection;
};
var GeneralTransforms = {
/**
* Transform the editor by an operation.
*/
transform: function transform(editor, op) {
editor.children = ln(editor.children);
var selection = editor.selection && ln(editor.selection);
try {
selection = applyToDraft(editor, selection, op);
} finally {
editor.children = dn(editor.children);
if (selection) {
editor.selection = t(selection) ? dn(selection) : selection;
} else {
editor.selection = null;
}
}
}
};
var _excluded = ["text"],
_excluded2 = ["children"];
function ownKeys$2(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$2(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$2(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$2(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _createForOfIteratorHelper$1(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray$1(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray$1(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$1(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$1(o, minLen); }
function _arrayLikeToArray$1(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
var NodeTransforms = {
/**
* Insert nodes at a specific location in the Editor.
*/
insertNodes: function insertNodes(editor, nodes) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
Editor.withoutNormalizing(editor, function () {
var _options$hanging = options.hanging,
hanging = _options$hanging === void 0 ? false : _options$hanging,
_options$voids = options.voids,
voids = _options$voids === void 0 ? false : _options$voids,
_options$mode = options.mode,
mode = _options$mode === void 0 ? 'lowest' : _options$mode;
var at = options.at,
match = options.match,
select = options.select;
if (Node.isNode(nodes)) {
nodes = [nodes];
}
if (nodes.length === 0) {
return;
}
var _nodes = nodes,
_nodes2 = _slicedToArray(_nodes, 1),
node = _nodes2[0]; // By default, use the selection as the target location. But if there is
// no selection, insert at the end of the document since that is such a
// common use case when inserting from a non-selected state.
if (!at) {
if (editor.selection) {
at = editor.selection;
} else if (editor.children.length > 0) {
at = Editor.end(editor, []);
} else {
at = [0];
}
select = true;
}
if (select == null) {
select = false;
}
if (Range.isRange(at)) {
if (!hanging) {
at = Editor.unhangRange(editor, at);
}
if (Range.isCollapsed(at)) {
at = at.anchor;
} else {
var _Range$edges = Range.edges(at),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
end = _Range$edges2[1];
var pointRef = Editor.pointRef(editor, end);
Transforms["delete"](editor, {
at: at
});
at = pointRef.unref();
}
}
if (Point.isPoint(at)) {
if (match == null) {
if (Text.isText(node)) {
match = function match(n) {
return Text.isText(n);
};
} else if (editor.isInline(node)) {
match = function match(n) {
return Text.isText(n) || Editor.isInline(editor, n);
};
} else {
match = function match(n) {
return Editor.isBlock(editor, n);
};
}
}
var _Editor$nodes = Editor.nodes(editor, {
at: at.path,
match: match,
mode: mode,
voids: voids
}),
_Editor$nodes2 = _slicedToArray(_Editor$nodes, 1),
entry = _Editor$nodes2[0];
if (entry) {
var _entry = _slicedToArray(entry, 2),
_matchPath = _entry[1];
var pathRef = Editor.pathRef(editor, _matchPath);
var isAtEnd = Editor.isEnd(editor, at, _matchPath);
Transforms.splitNodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
});
var path = pathRef.unref();
at = isAtEnd ? Path.next(path) : path;
} else {
return;
}
}
var parentPath = Path.parent(at);
var index = at[at.length - 1];
if (!voids && Editor["void"](editor, {
at: parentPath
})) {
return;
}
var _iterator = _createForOfIteratorHelper$1(nodes),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var _node = _step.value;
var _path = parentPath.concat(index);
index++;
editor.apply({
type: 'insert_node',
path: _path,
node: _node
});
at = Path.next(at);
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
at = Path.previous(at);
if (select) {
var point = Editor.end(editor, at);
if (point) {
Transforms.select(editor, point);
}
}
});
},
/**
* Lift nodes at a specific location upwards in the document tree, splitting
* their parent in two if necessary.
*/
liftNodes: function liftNodes(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var _options$at = options.at,
at = _options$at === void 0 ? editor.selection : _options$at,
_options$mode2 = options.mode,
mode = _options$mode2 === void 0 ? 'lowest' : _options$mode2,
_options$voids2 = options.voids,
voids = _options$voids2 === void 0 ? false : _options$voids2;
var match = options.match;
if (match == null) {
match = Path.isPath(at) ? matchPath(editor, at) : function (n) {
return Editor.isBlock(editor, n);
};
}
if (!at) {
return;
}
var matches = Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
});
var pathRefs = Array.from(matches, function (_ref) {
var _ref2 = _slicedToArray(_ref, 2),
p = _ref2[1];
return Editor.pathRef(editor, p);
});
for (var _i = 0, _pathRefs = pathRefs; _i < _pathRefs.length; _i++) {
var pathRef = _pathRefs[_i];
var path = pathRef.unref();
if (path.length < 2) {
throw new Error("Cannot lift node at a path [".concat(path, "] because it has a depth of less than `2`."));
}
var parentNodeEntry = Editor.node(editor, Path.parent(path));
var _parentNodeEntry = _slicedToArray(parentNodeEntry, 2),
parent = _parentNodeEntry[0],
parentPath = _parentNodeEntry[1];
var index = path[path.length - 1];
var length = parent.children.length;
if (length === 1) {
var toPath = Path.next(parentPath);
Transforms.moveNodes(editor, {
at: path,
to: toPath,
voids: voids
});
Transforms.removeNodes(editor, {
at: parentPath,
voids: voids
});
} else if (index === 0) {
Transforms.moveNodes(editor, {
at: path,
to: parentPath,
voids: voids
});
} else if (index === length - 1) {
var _toPath = Path.next(parentPath);
Transforms.moveNodes(editor, {
at: path,
to: _toPath,
voids: voids
});
} else {
var splitPath = Path.next(path);
var _toPath2 = Path.next(parentPath);
Transforms.splitNodes(editor, {
at: splitPath,
voids: voids
});
Transforms.moveNodes(editor, {
at: path,
to: _toPath2,
voids: voids
});
}
}
});
},
/**
* Merge a node at a location with the previous node of the same depth,
* removing any empty containing nodes after the merge if necessary.
*/
mergeNodes: function mergeNodes(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var match = options.match,
_options$at2 = options.at,
at = _options$at2 === void 0 ? editor.selection : _options$at2;
var _options$hanging2 = options.hanging,
hanging = _options$hanging2 === void 0 ? false : _options$hanging2,
_options$voids3 = options.voids,
voids = _options$voids3 === void 0 ? false : _options$voids3,
_options$mode3 = options.mode,
mode = _options$mode3 === void 0 ? 'lowest' : _options$mode3;
if (!at) {
return;
}
if (match == null) {
if (Path.isPath(at)) {
var _Editor$parent = Editor.parent(editor, at),
_Editor$parent2 = _slicedToArray(_Editor$parent, 1),
parent = _Editor$parent2[0];
match = function match(n) {
return parent.children.includes(n);
};
} else {
match = function match(n) {
return Editor.isBlock(editor, n);
};
}
}
if (!hanging && Range.isRange(at)) {
at = Editor.unhangRange(editor, at);
}
if (Range.isRange(at)) {
if (Range.isCollapsed(at)) {
at = at.anchor;
} else {
var _Range$edges3 = Range.edges(at),
_Range$edges4 = _slicedToArray(_Range$edges3, 2),
end = _Range$edges4[1];
var pointRef = Editor.pointRef(editor, end);
Transforms["delete"](editor, {
at: at
});
at = pointRef.unref();
if (options.at == null) {
Transforms.select(editor, at);
}
}
}
var _Editor$nodes3 = Editor.nodes(editor, {
at: at,
match: match,
voids: voids,
mode: mode
}),
_Editor$nodes4 = _slicedToArray(_Editor$nodes3, 1),
current = _Editor$nodes4[0];
var prev = Editor.previous(editor, {
at: at,
match: match,
voids: voids,
mode: mode
});
if (!current || !prev) {
return;
}
var _current = _slicedToArray(current, 2),
node = _current[0],
path = _current[1];
var _prev = _slicedToArray(prev, 2),
prevNode = _prev[0],
prevPath = _prev[1];
if (path.length === 0 || prevPath.length === 0) {
return;
}
var newPath = Path.next(prevPath);
var commonPath = Path.common(path, prevPath);
var isPreviousSibling = Path.isSibling(path, prevPath);
var levels = Array.from(Editor.levels(editor, {
at: path
}), function (_ref3) {
var _ref4 = _slicedToArray(_ref3, 1),
n = _ref4[0];
return n;
}).slice(commonPath.length).slice(0, -1); // Determine if the merge will leave an ancestor of the path empty as a
// result, in which case we'll want to remove it after merging.
var emptyAncestor = Editor.above(editor, {
at: path,
mode: 'highest',
match: function match(n) {
return levels.includes(n) && hasSingleChildNest(editor, n);
}
});
var emptyRef = emptyAncestor && Editor.pathRef(editor, emptyAncestor[1]);
var properties;
var position; // Ensure that the nodes are equivalent, and figure out what the position
// and extra properties of the merge will be.
if (Text.isText(node) && Text.isText(prevNode)) {
node.text;
var rest = _objectWithoutProperties(node, _excluded);
position = prevNode.text.length;
properties = rest;
} else if (Element.isElement(node) && Element.isElement(prevNode)) {
node.children;
var _rest = _objectWithoutProperties(node, _excluded2);
position = prevNode.children.length;
properties = _rest;
} else {
throw new Error("Cannot merge the node at path [".concat(path, "] with the previous sibling because it is not the same kind: ").concat(JSON.stringify(node), " ").concat(JSON.stringify(prevNode)));
} // If the node isn't already the next sibling of the previous node, move
// it so that it is before merging.
if (!isPreviousSibling) {
Transforms.moveNodes(editor, {
at: path,
to: newPath,
voids: voids
});
} // If there was going to be an empty ancestor of the node that was merged,
// we remove it from the tree.
if (emptyRef) {
Transforms.removeNodes(editor, {
at: emptyRef.current,
voids: voids
});
} // If the target node that we're merging with is empty, remove it instead
// of merging the two. This is a common rich text editor behavior to
// prevent losing formatting when deleting entire nodes when you have a
// hanging selection.
// if prevNode is first child in parent,don't remove it.
if (Element.isElement(prevNode) && Editor.isEmpty(editor, prevNode) || Text.isText(prevNode) && prevNode.text === '' && prevPath[prevPath.length - 1] !== 0) {
Transforms.removeNodes(editor, {
at: prevPath,
voids: voids
});
} else {
editor.apply({
type: 'merge_node',
path: newPath,
position: position,
properties: properties
});
}
if (emptyRef) {
emptyRef.unref();
}
});
},
/**
* Move the nodes at a location to a new location.
*/
moveNodes: function moveNodes(editor, options) {
Editor.withoutNormalizing(editor, function () {
var to = options.to,
_options$at3 = options.at,
at = _options$at3 === void 0 ? editor.selection : _options$at3,
_options$mode4 = options.mode,
mode = _options$mode4 === void 0 ? 'lowest' : _options$mode4,
_options$voids4 = options.voids,
voids = _options$voids4 === void 0 ? false : _options$voids4;
var match = options.match;
if (!at) {
return;
}
if (match == null) {
match = Path.isPath(at) ? matchPath(editor, at) : function (n) {
return Editor.isBlock(editor, n);
};
}
var toRef = Editor.pathRef(editor, to);
var targets = Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
});
var pathRefs = Array.from(targets, function (_ref5) {
var _ref6 = _slicedToArray(_ref5, 2),
p = _ref6[1];
return Editor.pathRef(editor, p);
});
for (var _i2 = 0, _pathRefs2 = pathRefs; _i2 < _pathRefs2.length; _i2++) {
var pathRef = _pathRefs2[_i2];
var path = pathRef.unref();
var newPath = toRef.current;
if (path.length !== 0) {
editor.apply({
type: 'move_node',
path: path,
newPath: newPath
});
}
if (toRef.current && Path.isSibling(newPath, path) && Path.isAfter(newPath, path)) {
// When performing a sibling move to a later index, the path at the destination is shifted
// to before the insertion point instead of after. To ensure our group of nodes are inserted
// in the correct order we increment toRef to account for that
toRef.current = Path.next(toRef.current);
}
}
toRef.unref();
});
},
/**
* Remove the nodes at a specific location in the document.
*/
removeNodes: function removeNodes(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var _options$hanging3 = options.hanging,
hanging = _options$hanging3 === void 0 ? false : _options$hanging3,
_options$voids5 = options.voids,
voids = _options$voids5 === void 0 ? false : _options$voids5,
_options$mode5 = options.mode,
mode = _options$mode5 === void 0 ? 'lowest' : _options$mode5;
var _options$at4 = options.at,
at = _options$at4 === void 0 ? editor.selection : _options$at4,
match = options.match;
if (!at) {
return;
}
if (match == null) {
match = Path.isPath(at) ? matchPath(editor, at) : function (n) {
return Editor.isBlock(editor, n);
};
}
if (!hanging && Range.isRange(at)) {
at = Editor.unhangRange(editor, at);
}
var depths = Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
});
var pathRefs = Array.from(depths, function (_ref7) {
var _ref8 = _slicedToArray(_ref7, 2),
p = _ref8[1];
return Editor.pathRef(editor, p);
});
for (var _i3 = 0, _pathRefs3 = pathRefs; _i3 < _pathRefs3.length; _i3++) {
var pathRef = _pathRefs3[_i3];
var path = pathRef.unref();
if (path) {
var _Editor$node = Editor.node(editor, path),
_Editor$node2 = _slicedToArray(_Editor$node, 1),
node = _Editor$node2[0];
editor.apply({
type: 'remove_node',
path: path,
node: node
});
}
}
});
},
/**
* Set new properties on the nodes at a location.
*/
setNodes: function setNodes(editor, props) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
Editor.withoutNormalizing(editor, function () {
var match = options.match,
_options$at5 = options.at,
at = _options$at5 === void 0 ? editor.selection : _options$at5;
var _options$hanging4 = options.hanging,
hanging = _options$hanging4 === void 0 ? false : _options$hanging4,
_options$mode6 = options.mode,
mode = _options$mode6 === void 0 ? 'lowest' : _options$mode6,
_options$split = options.split,
split = _options$split === void 0 ? false : _options$split,
_options$voids6 = options.voids,
voids = _options$voids6 === void 0 ? false : _options$voids6;
if (!at) {
return;
}
if (match == null) {
match = Path.isPath(at) ? matchPath(editor, at) : function (n) {
return Editor.isBlock(editor, n);
};
}
if (!hanging && Range.isRange(at)) {
at = Editor.unhangRange(editor, at);
}
if (split && Range.isRange(at)) {
if (Range.isCollapsed(at) && Editor.leaf(editor, at.anchor)[0].text.length > 0) {
// If the range is collapsed in a non-empty node and 'split' is true, there's nothing to
// set that won't get normalized away
return;
}
var rangeRef = Editor.rangeRef(editor, at, {
affinity: 'inward'
});
var _Range$edges5 = Range.edges(at),
_Range$edges6 = _slicedToArray(_Range$edges5, 2),
start = _Range$edges6[0],
end = _Range$edges6[1];
var splitMode = mode === 'lowest' ? 'lowest' : 'highest';
var endAtEndOfNode = Editor.isEnd(editor, end, end.path);
Transforms.splitNodes(editor, {
at: end,
match: match,
mode: splitMode,
voids: voids,
always: !endAtEndOfNode
});
var startAtStartOfNode = Editor.isStart(editor, start, start.path);
Transforms.splitNodes(editor, {
at: start,
match: match,
mode: splitMode,
voids: voids,
always: !startAtStartOfNode
});
at = rangeRef.unref();
if (options.at == null) {
Transforms.select(editor, at);
}
}
var _iterator2 = _createForOfIteratorHelper$1(Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
})),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var _step2$value = _slicedToArray(_step2.value, 2),
node = _step2$value[0],
path = _step2$value[1];
var properties = {};
var newProperties = {}; // You can't set properties on the editor node.
if (path.length === 0) {
continue;
}
var hasChanges = false;
for (var k in props) {
if (k === 'children' || k === 'text') {
continue;
}
if (props[k] !== node[k]) {
hasChanges = true; // Omit new properties from the old properties list
if (node.hasOwnProperty(k)) properties[k] = node[k]; // Omit properties that have been removed from the new properties list
if (props[k] != null) newProperties[k] = props[k];
}
}
if (hasChanges) {
editor.apply({
type: 'set_node',
path: path,
properties: properties,
newProperties: newProperties
});
}
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
});
},
/**
* Split the nodes at a specific location.
*/
splitNodes: function splitNodes(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var _options$mode7 = options.mode,
mode = _options$mode7 === void 0 ? 'lowest' : _options$mode7,
_options$voids7 = options.voids,
voids = _options$voids7 === void 0 ? false : _options$voids7;
var match = options.match,
_options$at6 = options.at,
at = _options$at6 === void 0 ? editor.selection : _options$at6,
_options$height = options.height,
height = _options$height === void 0 ? 0 : _options$height,
_options$always = options.always,
always = _options$always === void 0 ? false : _options$always;
if (match == null) {
match = function match(n) {
return Editor.isBlock(editor, n);
};
}
if (Range.isRange(at)) {
at = deleteRange(editor, at);
} // If the target is a path, the default height-skipping and position
// counters need to account for us potentially splitting at a non-leaf.
if (Path.isPath(at)) {
var path = at;
var point = Editor.point(editor, path);
var _Editor$parent3 = Editor.parent(editor, path),
_Editor$parent4 = _slicedToArray(_Editor$parent3, 1),
parent = _Editor$parent4[0];
match = function match(n) {
return n === parent;
};
height = point.path.length - path.length + 1;
at = point;
always = true;
}
if (!at) {
return;
}
var beforeRef = Editor.pointRef(editor, at, {
affinity: 'backward'
});
var _Editor$nodes5 = Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
}),
_Editor$nodes6 = _slicedToArray(_Editor$nodes5, 1),
highest = _Editor$nodes6[0];
if (!highest) {
return;
}
var voidMatch = Editor["void"](editor, {
at: at,
mode: 'highest'
});
var nudge = 0;
if (!voids && voidMatch) {
var _voidMatch = _slicedToArray(voidMatch, 2),
voidNode = _voidMatch[0],
voidPath = _voidMatch[1];
if (Element.isElement(voidNode) && editor.isInline(voidNode)) {
var after = Editor.after(editor, voidPath);
if (!after) {
var text = {
text: ''
};
var afterPath = Path.next(voidPath);
Transforms.insertNodes(editor, text, {
at: afterPath,
voids: voids
});
after = Editor.point(editor, afterPath);
}
at = after;
always = true;
}
var siblingHeight = at.path.length - voidPath.length;
height = siblingHeight + 1;
always = true;
}
var afterRef = Editor.pointRef(editor, at);
var depth = at.path.length - height;
var _highest = _slicedToArray(highest, 2),
highestPath = _highest[1];
var lowestPath = at.path.slice(0, depth);
var position = height === 0 ? at.offset : at.path[depth] + nudge;
var _iterator3 = _createForOfIteratorHelper$1(Editor.levels(editor, {
at: lowestPath,
reverse: true,
voids: voids
})),
_step3;
try {
for (_iterator3.s(); !(_step3 = _iterator3.n()).done;) {
var _step3$value = _slicedToArray(_step3.value, 2),
node = _step3$value[0],
_path2 = _step3$value[1];
var split = false;
if (_path2.length < highestPath.length || _path2.length === 0 || !voids && Editor.isVoid(editor, node)) {
break;
}
var _point2 = beforeRef.current;
var isEnd = Editor.isEnd(editor, _point2, _path2);
if (always || !beforeRef || !Editor.isEdge(editor, _point2, _path2)) {
split = true;
var properties = Node.extractProps(node);
editor.apply({
type: 'split_node',
path: _path2,
position: position,
properties: properties
});
}
position = _path2[_path2.length - 1] + (split || isEnd ? 1 : 0);
}
} catch (err) {
_iterator3.e(err);
} finally {
_iterator3.f();
}
if (options.at == null) {
var _point = afterRef.current || Editor.end(editor, []);
Transforms.select(editor, _point);
}
beforeRef.unref();
afterRef.unref();
});
},
/**
* Unset properties on the nodes at a location.
*/
unsetNodes: function unsetNodes(editor, props) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
if (!Array.isArray(props)) {
props = [props];
}
var obj = {};
var _iterator4 = _createForOfIteratorHelper$1(props),
_step4;
try {
for (_iterator4.s(); !(_step4 = _iterator4.n()).done;) {
var key = _step4.value;
obj[key] = null;
}
} catch (err) {
_iterator4.e(err);
} finally {
_iterator4.f();
}
Transforms.setNodes(editor, obj, options);
},
/**
* Unwrap the nodes at a location from a parent node, splitting the parent if
* necessary to ensure that only the content in the range is unwrapped.
*/
unwrapNodes: function unwrapNodes(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var _options$mode8 = options.mode,
mode = _options$mode8 === void 0 ? 'lowest' : _options$mode8,
_options$split2 = options.split,
split = _options$split2 === void 0 ? false : _options$split2,
_options$voids8 = options.voids,
voids = _options$voids8 === void 0 ? false : _options$voids8;
var _options$at7 = options.at,
at = _options$at7 === void 0 ? editor.selection : _options$at7,
match = options.match;
if (!at) {
return;
}
if (match == null) {
match = Path.isPath(at) ? matchPath(editor, at) : function (n) {
return Editor.isBlock(editor, n);
};
}
if (Path.isPath(at)) {
at = Editor.range(editor, at);
}
var rangeRef = Range.isRange(at) ? Editor.rangeRef(editor, at) : null;
var matches = Editor.nodes(editor, {
at: at,
match: match,
mode: mode,
voids: voids
});
var pathRefs = Array.from(matches, function (_ref9) {
var _ref10 = _slicedToArray(_ref9, 2),
p = _ref10[1];
return Editor.pathRef(editor, p);
} // unwrapNode will call liftNode which does not support splitting the node when nested.
// If we do not reverse the order and call it from top to the bottom, it will remove all blocks
// that wrap target node. So we reverse the order.
).reverse();
var _iterator5 = _createForOfIteratorHelper$1(pathRefs),
_step5;
try {
var _loop = function _loop() {
var pathRef = _step5.value;
var path = pathRef.unref();
var _Editor$node3 = Editor.node(editor, path),
_Editor$node4 = _slicedToArray(_Editor$node3, 1),
node = _Editor$node4[0];
var range = Editor.range(editor, path);
if (split && rangeRef) {
range = Range.intersection(rangeRef.current, range);
}
Transforms.liftNodes(editor, {
at: range,
match: function match(n) {
return Element.isAncestor(node) && node.children.includes(n);
},
voids: voids
});
};
for (_iterator5.s(); !(_step5 = _iterator5.n()).done;) {
_loop();
}
} catch (err) {
_iterator5.e(err);
} finally {
_iterator5.f();
}
if (rangeRef) {
rangeRef.unref();
}
});
},
/**
* Wrap the nodes at a location in a new container node, splitting the edges
* of the range first to ensure that only the content in the range is wrapped.
*/
wrapNodes: function wrapNodes(editor, element) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
Editor.withoutNormalizing(editor, function () {
var _options$mode9 = options.mode,
mode = _options$mode9 === void 0 ? 'lowest' : _options$mode9,
_options$split3 = options.split,
split = _options$split3 === void 0 ? false : _options$split3,
_options$voids9 = options.voids,
voids = _options$voids9 === void 0 ? false : _options$voids9;
var match = options.match,
_options$at8 = options.at,
at = _options$at8 === void 0 ? editor.selection : _options$at8;
if (!at) {
return;
}
if (match == null) {
if (Path.isPath(at)) {
match = matchPath(editor, at);
} else if (editor.isInline(element)) {
match = function match(n) {
return Editor.isInline(editor, n) || Text.isText(n);
};
} else {
match = function match(n) {
return Editor.isBlock(editor, n);
};
}
}
if (split && Range.isRange(at)) {
var _Range$edges7 = Range.edges(at),
_Range$edges8 = _slicedToArray(_Range$edges7, 2),
start = _Range$edges8[0],
end = _Range$edges8[1];
var rangeRef = Editor.rangeRef(editor, at, {
affinity: 'inward'
});
Transforms.splitNodes(editor, {
at: end,
match: match,
voids: voids
});
Transforms.splitNodes(editor, {
at: start,
match: match,
voids: voids
});
at = rangeRef.unref();
if (options.at == null) {
Transforms.select(editor, at);
}
}
var roots = Array.from(Editor.nodes(editor, {
at: at,
match: editor.isInline(element) ? function (n) {
return Editor.isBlock(editor, n);
} : function (n) {
return Editor.isEditor(n);
},
mode: 'lowest',
voids: voids
}));
for (var _i4 = 0, _roots = roots; _i4 < _roots.length; _i4++) {
var _roots$_i = _slicedToArray(_roots[_i4], 2),
rootPath = _roots$_i[1];
var a = Range.isRange(at) ? Range.intersection(at, Editor.range(editor, rootPath)) : at;
if (!a) {
continue;
}
var matches = Array.from(Editor.nodes(editor, {
at: a,
match: match,
mode: mode,
voids: voids
}));
if (matches.length > 0) {
var _ret = function () {
var _matches = _slicedToArray(matches, 1),
first = _matches[0];
var last = matches[matches.length - 1];
var _first = _slicedToArray(first, 2),
firstPath = _first[1];
var _last = _slicedToArray(last, 2),
lastPath = _last[1];
if (firstPath.length === 0 && lastPath.length === 0) {
// if there's no matching parent - usually means the node is an editor - don't do anything
return "continue";
}
var commonPath = Path.equals(firstPath, lastPath) ? Path.parent(firstPath) : Path.common(firstPath, lastPath);
var range = Editor.range(editor, firstPath, lastPath);
var commonNodeEntry = Editor.node(editor, commonPath);
var _commonNodeEntry = _slicedToArray(commonNodeEntry, 1),
commonNode = _commonNodeEntry[0];
var depth = commonPath.length + 1;
var wrapperPath = Path.next(lastPath.slice(0, depth));
var wrapper = _objectSpread$2(_objectSpread$2({}, element), {}, {
children: []
});
Transforms.insertNodes(editor, wrapper, {
at: wrapperPath,
voids: voids
});
Transforms.moveNodes(editor, {
at: range,
match: function match(n) {
return Element.isAncestor(commonNode) && commonNode.children.includes(n);
},
to: wrapperPath.concat(0),
voids: voids
});
}();
if (_ret === "continue") continue;
}
}
});
}
};
var hasSingleChildNest = function hasSingleChildNest(editor, node) {
if (Element.isElement(node)) {
var element = node;
if (Editor.isVoid(editor, node)) {
return true;
} else if (element.children.length === 1) {
return hasSingleChildNest(editor, element.children[0]);
} else {
return false;
}
} else if (Editor.isEditor(node)) {
return false;
} else {
return true;
}
};
/**
* Convert a range into a point by deleting it's content.
*/
var deleteRange = function deleteRange(editor, range) {
if (Range.isCollapsed(range)) {
return range.anchor;
} else {
var _Range$edges9 = Range.edges(range),
_Range$edges10 = _slicedToArray(_Range$edges9, 2),
end = _Range$edges10[1];
var pointRef = Editor.pointRef(editor, end);
Transforms["delete"](editor, {
at: range
});
return pointRef.unref();
}
};
var matchPath = function matchPath(editor, path) {
var _Editor$node5 = Editor.node(editor, path),
_Editor$node6 = _slicedToArray(_Editor$node5, 1),
node = _Editor$node6[0];
return function (n) {
return n === node;
};
};
function ownKeys$1(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread$1(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys$1(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys$1(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var SelectionTransforms = {
/**
* Collapse the selection.
*/
collapse: function collapse(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var _options$edge = options.edge,
edge = _options$edge === void 0 ? 'anchor' : _options$edge;
var selection = editor.selection;
if (!selection) {
return;
} else if (edge === 'anchor') {
Transforms.select(editor, selection.anchor);
} else if (edge === 'focus') {
Transforms.select(editor, selection.focus);
} else if (edge === 'start') {
var _Range$edges = Range.edges(selection),
_Range$edges2 = _slicedToArray(_Range$edges, 1),
start = _Range$edges2[0];
Transforms.select(editor, start);
} else if (edge === 'end') {
var _Range$edges3 = Range.edges(selection),
_Range$edges4 = _slicedToArray(_Range$edges3, 2),
end = _Range$edges4[1];
Transforms.select(editor, end);
}
},
/**
* Unset the selection.
*/
deselect: function deselect(editor) {
var selection = editor.selection;
if (selection) {
editor.apply({
type: 'set_selection',
properties: selection,
newProperties: null
});
}
},
/**
* Move the selection's point forward or backward.
*/
move: function move(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
var selection = editor.selection;
var _options$distance = options.distance,
distance = _options$distance === void 0 ? 1 : _options$distance,
_options$unit = options.unit,
unit = _options$unit === void 0 ? 'character' : _options$unit,
_options$reverse = options.reverse,
reverse = _options$reverse === void 0 ? false : _options$reverse;
var _options$edge2 = options.edge,
edge = _options$edge2 === void 0 ? null : _options$edge2;
if (!selection) {
return;
}
if (edge === 'start') {
edge = Range.isBackward(selection) ? 'focus' : 'anchor';
}
if (edge === 'end') {
edge = Range.isBackward(selection) ? 'anchor' : 'focus';
}
var anchor = selection.anchor,
focus = selection.focus;
var opts = {
distance: distance,
unit: unit
};
var props = {};
if (edge == null || edge === 'anchor') {
var point = reverse ? Editor.before(editor, anchor, opts) : Editor.after(editor, anchor, opts);
if (point) {
props.anchor = point;
}
}
if (edge == null || edge === 'focus') {
var _point = reverse ? Editor.before(editor, focus, opts) : Editor.after(editor, focus, opts);
if (_point) {
props.focus = _point;
}
}
Transforms.setSelection(editor, props);
},
/**
* Set the selection to a new value.
*/
select: function select(editor, target) {
var selection = editor.selection;
target = Editor.range(editor, target);
if (selection) {
Transforms.setSelection(editor, target);
return;
}
if (!Range.isRange(target)) {
throw new Error("When setting the selection and the current selection is `null` you must provide at least an `anchor` and `focus`, but you passed: ".concat(JSON.stringify(target)));
}
editor.apply({
type: 'set_selection',
properties: selection,
newProperties: target
});
},
/**
* Set new properties on one of the selection's points.
*/
setPoint: function setPoint(editor, props) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
var selection = editor.selection;
var _options$edge3 = options.edge,
edge = _options$edge3 === void 0 ? 'both' : _options$edge3;
if (!selection) {
return;
}
if (edge === 'start') {
edge = Range.isBackward(selection) ? 'focus' : 'anchor';
}
if (edge === 'end') {
edge = Range.isBackward(selection) ? 'anchor' : 'focus';
}
var anchor = selection.anchor,
focus = selection.focus;
var point = edge === 'anchor' ? anchor : focus;
Transforms.setSelection(editor, _defineProperty({}, edge === 'anchor' ? 'anchor' : 'focus', _objectSpread$1(_objectSpread$1({}, point), props)));
},
/**
* Set new properties on the selection.
*/
setSelection: function setSelection(editor, props) {
var selection = editor.selection;
var oldProps = {};
var newProps = {};
if (!selection) {
return;
}
for (var k in props) {
if (k === 'anchor' && props.anchor != null && !Point.equals(props.anchor, selection.anchor) || k === 'focus' && props.focus != null && !Point.equals(props.focus, selection.focus) || k !== 'anchor' && k !== 'focus' && props[k] !== selection[k]) {
oldProps[k] = selection[k];
newProps[k] = props[k];
}
}
if (Object.keys(oldProps).length > 0) {
editor.apply({
type: 'set_selection',
properties: oldProps,
newProperties: newProps
});
}
}
};
function _createForOfIteratorHelper(o, allowArrayLike) { var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"]; if (!it) { if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") { if (it) o = it; var i = 0; var F = function F() {}; return { s: F, n: function n() { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }, e: function e(_e) { throw _e; }, f: F }; } throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } var normalCompletion = true, didErr = false, err; return { s: function s() { it = it.call(o); }, n: function n() { var step = it.next(); normalCompletion = step.done; return step; }, e: function e(_e2) { didErr = true; err = _e2; }, f: function f() { try { if (!normalCompletion && it["return"] != null) it["return"](); } finally { if (didErr) throw err; } } }; }
function _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); }
function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; }
var TextTransforms = {
/**
* Delete content in the editor.
*/
"delete": function _delete(editor) {
var options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Editor.withoutNormalizing(editor, function () {
var _options$reverse = options.reverse,
reverse = _options$reverse === void 0 ? false : _options$reverse,
_options$unit = options.unit,
unit = _options$unit === void 0 ? 'character' : _options$unit,
_options$distance = options.distance,
distance = _options$distance === void 0 ? 1 : _options$distance,
_options$voids = options.voids,
voids = _options$voids === void 0 ? false : _options$voids;
var _options$at = options.at,
at = _options$at === void 0 ? editor.selection : _options$at,
_options$hanging = options.hanging,
hanging = _options$hanging === void 0 ? false : _options$hanging;
if (!at) {
return;
}
if (Range.isRange(at) && Range.isCollapsed(at)) {
at = at.anchor;
}
if (Point.isPoint(at)) {
var furthestVoid = Editor["void"](editor, {
at: at,
mode: 'highest'
});
if (!voids && furthestVoid) {
var _furthestVoid = _slicedToArray(furthestVoid, 2),
voidPath = _furthestVoid[1];
at = voidPath;
} else {
var opts = {
unit: unit,
distance: distance
};
var target = reverse ? Editor.before(editor, at, opts) || Editor.start(editor, []) : Editor.after(editor, at, opts) || Editor.end(editor, []);
at = {
anchor: at,
focus: target
};
hanging = true;
}
}
if (Path.isPath(at)) {
Transforms.removeNodes(editor, {
at: at,
voids: voids
});
return;
}
if (Range.isCollapsed(at)) {
return;
}
if (!hanging) {
var _Range$edges = Range.edges(at),
_Range$edges2 = _slicedToArray(_Range$edges, 2),
_end = _Range$edges2[1];
var endOfDoc = Editor.end(editor, []);
if (!Point.equals(_end, endOfDoc)) {
at = Editor.unhangRange(editor, at, {
voids: voids
});
}
}
var _Range$edges3 = Range.edges(at),
_Range$edges4 = _slicedToArray(_Range$edges3, 2),
start = _Range$edges4[0],
end = _Range$edges4[1];
var startBlock = Editor.above(editor, {
match: function match(n) {
return Editor.isBlock(editor, n);
},
at: start,
voids: voids
});
var endBlock = Editor.above(editor, {
match: function match(n) {
return Editor.isBlock(editor, n);
},
at: end,
voids: voids
});
var isAcrossBlocks = startBlock && endBlock && !Path.equals(startBlock[1], endBlock[1]);
var isSingleText = Path.equals(start.path, end.path);
var startVoid = voids ? null : Editor["void"](editor, {
at: start,
mode: 'highest'
});
var endVoid = voids ? null : Editor["void"](editor, {
at: end,
mode: 'highest'
}); // If the start or end points are inside an inline void, nudge them out.
if (startVoid) {
var before = Editor.before(editor, start);
if (before && startBlock && Path.isAncestor(startBlock[1], before.path)) {
start = before;
}
}
if (endVoid) {
var after = Editor.after(editor, end);
if (after && endBlock && Path.isAncestor(endBlock[1], after.path)) {
end = after;
}
} // Get the highest nodes that are completely inside the range, as well as
// the start and end nodes.
var matches = [];
var lastPath;
var _iterator = _createForOfIteratorHelper(Editor.nodes(editor, {
at: at,
voids: voids
})),
_step;
try {
for (_iterator.s(); !(_step = _iterator.n()).done;) {
var entry = _step.value;
var _entry = _slicedToArray(entry, 2),
_node2 = _entry[0],
_path3 = _entry[1];
if (lastPath && Path.compare(_path3, lastPath) === 0) {
continue;
}
if (!voids && Editor.isVoid(editor, _node2) || !Path.isCommon(_path3, start.path) && !Path.isCommon(_path3, end.path)) {
matches.push(entry);
lastPath = _path3;
}
}
} catch (err) {
_iterator.e(err);
} finally {
_iterator.f();
}
var pathRefs = Array.from(matches, function (_ref) {
var _ref2 = _slicedToArray(_ref, 2),
p = _ref2[1];
return Editor.pathRef(editor, p);
});
var startRef = Editor.pointRef(editor, start);
var endRef = Editor.pointRef(editor, end);
if (!isSingleText && !startVoid) {
var _point = startRef.current;
var _Editor$leaf = Editor.leaf(editor, _point),
_Editor$leaf2 = _slicedToArray(_Editor$leaf, 1),
node = _Editor$leaf2[0];
var path = _point.path;
var _start = start,
offset = _start.offset;
var text = node.text.slice(offset);
if (text.length > 0) editor.apply({
type: 'remove_text',
path: path,
offset: offset,
text: text
});
}
for (var _i = 0, _pathRefs = pathRefs; _i < _pathRefs.length; _i++) {
var pathRef = _pathRefs[_i];
var _path = pathRef.unref();
Transforms.removeNodes(editor, {
at: _path,
voids: voids
});
}
if (!endVoid) {
var _point2 = endRef.current;
var _Editor$leaf3 = Editor.leaf(editor, _point2),
_Editor$leaf4 = _slicedToArray(_Editor$leaf3, 1),
_node = _Editor$leaf4[0];
var _path2 = _point2.path;
var _offset = isSingleText ? start.offset : 0;
var _text = _node.text.slice(_offset, end.offset);
if (_text.length > 0) editor.apply({
type: 'remove_text',
path: _path2,
offset: _offset,
text: _text
});
}
if (!isSingleText && isAcrossBlocks && endRef.current && startRef.current) {
Transforms.mergeNodes(editor, {
at: endRef.current,
hanging: true,
voids: voids
});
}
var point = reverse ? startRef.unref() || endRef.unref() : endRef.unref() || startRef.unref();
if (options.at == null && point) {
Transforms.select(editor, point);
}
});
},
/**
* Insert a fragment at a specific location in the editor.
*/
insertFragment: function insertFragment(editor, fragment) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
Editor.withoutNormalizing(editor, function () {
var _options$hanging2 = options.hanging,
hanging = _options$hanging2 === void 0 ? false : _options$hanging2,
_options$voids2 = options.voids,
voids = _options$voids2 === void 0 ? false : _options$voids2;
var _options$at2 = options.at,
at = _options$at2 === void 0 ? editor.selection : _options$at2;
if (!fragment.length) {
return;
}
if (!at) {
return;
} else if (Range.isRange(at)) {
if (!hanging) {
at = Editor.unhangRange(editor, at);
}
if (Range.isCollapsed(at)) {
at = at.anchor;
} else {
var _Range$edges5 = Range.edges(at),
_Range$edges6 = _slicedToArray(_Range$edges5, 2),
end = _Range$edges6[1];
if (!voids && Editor["void"](editor, {
at: end
})) {
return;
}
var pointRef = Editor.pointRef(editor, end);
Transforms["delete"](editor, {
at: at
});
at = pointRef.unref();
}
} else if (Path.isPath(at)) {
at = Editor.start(editor, at);
}
if (!voids && Editor["void"](editor, {
at: at
})) {
return;
} // If the insert point is at the edge of an inline node, move it outside
// instead since it will need to be split otherwise.
var inlineElementMatch = Editor.above(editor, {
at: at,
match: function match(n) {
return Editor.isInline(editor, n);
},
mode: 'highest',
voids: voids
});
if (inlineElementMatch) {
var _inlineElementMatch = _slicedToArray(inlineElementMatch, 2),
_inlinePath = _inlineElementMatch[1];
if (Editor.isEnd(editor, at, _inlinePath)) {
var after = Editor.after(editor, _inlinePath);
at = after;
} else if (Editor.isStart(editor, at, _inlinePath)) {
var before = Editor.before(editor, _inlinePath);
at = before;
}
}
var blockMatch = Editor.above(editor, {
match: function match(n) {
return Editor.isBlock(editor, n);
},
at: at,
voids: voids
});
var _blockMatch = _slicedToArray(blockMatch, 2),
blockPath = _blockMatch[1];
var isBlockStart = Editor.isStart(editor, at, blockPath);
var isBlockEnd = Editor.isEnd(editor, at, blockPath);
var isBlockEmpty = isBlockStart && isBlockEnd;
var mergeStart = !isBlockStart || isBlockStart && isBlockEnd;
var mergeEnd = !isBlockEnd;
var _Node$first = Node.first({
children: fragment
}, []),
_Node$first2 = _slicedToArray(_Node$first, 2),
firstPath = _Node$first2[1];
var _Node$last = Node.last({
children: fragment
}, []),
_Node$last2 = _slicedToArray(_Node$last, 2),
lastPath = _Node$last2[1];
var matches = [];
var matcher = function matcher(_ref3) {
var _ref4 = _slicedToArray(_ref3, 2),
n = _ref4[0],
p = _ref4[1];
var isRoot = p.length === 0;
if (isRoot) {
return false;
}
if (isBlockEmpty) {
return true;
}
if (mergeStart && Path.isAncestor(p, firstPath) && Element.isElement(n) && !editor.isVoid(n) && !editor.isInline(n)) {
return false;
}
if (mergeEnd && Path.isAncestor(p, lastPath) && Element.isElement(n) && !editor.isVoid(n) && !editor.isInline(n)) {
return false;
}
return true;
};
var _iterator2 = _createForOfIteratorHelper(Node.nodes({
children: fragment
}, {
pass: matcher
})),
_step2;
try {
for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) {
var entry = _step2.value;
if (matcher(entry)) {
matches.push(entry);
}
}
} catch (err) {
_iterator2.e(err);
} finally {
_iterator2.f();
}
var starts = [];
var middles = [];
var ends = [];
var starting = true;
var hasBlocks = false;
for (var _i2 = 0, _matches = matches; _i2 < _matches.length; _i2++) {
var _matches$_i = _slicedToArray(_matches[_i2], 1),
node = _matches$_i[0];
if (Element.isElement(node) && !editor.isInline(node)) {
starting = false;
hasBlocks = true;
middles.push(node);
} else if (starting) {
starts.push(node);
} else {
ends.push(node);
}
}
var _Editor$nodes = Editor.nodes(editor, {
at: at,
match: function match(n) {
return Text.isText(n) || Editor.isInline(editor, n);
},
mode: 'highest',
voids: voids
}),
_Editor$nodes2 = _slicedToArray(_Editor$nodes, 1),
inlineMatch = _Editor$nodes2[0];
var _inlineMatch = _slicedToArray(inlineMatch, 2),
inlinePath = _inlineMatch[1];
var isInlineStart = Editor.isStart(editor, at, inlinePath);
var isInlineEnd = Editor.isEnd(editor, at, inlinePath);
var middleRef = Editor.pathRef(editor, isBlockEnd ? Path.next(blockPath) : blockPath);
var endRef = Editor.pathRef(editor, isInlineEnd ? Path.next(inlinePath) : inlinePath);
var blockPathRef = Editor.pathRef(editor, blockPath);
Transforms.splitNodes(editor, {
at: at,
match: function match(n) {
return hasBlocks ? Editor.isBlock(editor, n) : Text.isText(n) || Editor.isInline(editor, n);
},
mode: hasBlocks ? 'lowest' : 'highest',
voids: voids
});
var startRef = Editor.pathRef(editor, !isInlineStart || isInlineStart && isInlineEnd ? Path.next(inlinePath) : inlinePath);
Transforms.insertNodes(editor, starts, {
at: startRef.current,
match: function match(n) {
return Text.isText(n) || Editor.isInline(editor, n);
},
mode: 'highest',
voids: voids
});
if (isBlockEmpty && middles.length) {
Transforms["delete"](editor, {
at: blockPathRef.unref(),
voids: voids
});
}
Transforms.insertNodes(editor, middles, {
at: middleRef.current,
match: function match(n) {
return Editor.isBlock(editor, n);
},
mode: 'lowest',
voids: voids
});
Transforms.insertNodes(editor, ends, {
at: endRef.current,
match: function match(n) {
return Text.isText(n) || Editor.isInline(editor, n);
},
mode: 'highest',
voids: voids
});
if (!options.at) {
var path;
if (ends.length > 0) {
path = Path.previous(endRef.current);
} else if (middles.length > 0) {
path = Path.previous(middleRef.current);
} else {
path = Path.previous(startRef.current);
}
var _end2 = Editor.end(editor, path);
Transforms.select(editor, _end2);
}
startRef.unref();
middleRef.unref();
endRef.unref();
});
},
/**
* Insert a string of text in the Editor.
*/
insertText: function insertText(editor, text) {
var options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {};
Editor.withoutNormalizing(editor, function () {
var _options$voids3 = options.voids,
voids = _options$voids3 === void 0 ? false : _options$voids3;
var _options$at3 = options.at,
at = _options$at3 === void 0 ? editor.selection : _options$at3;
if (!at) {
return;
}
if (Path.isPath(at)) {
at = Editor.range(editor, at);
}
if (Range.isRange(at)) {
if (Range.isCollapsed(at)) {
at = at.anchor;
} else {
var end = Range.end(at);
if (!voids && Editor["void"](editor, {
at: end
})) {
return;
}
var start = Range.start(at);
var pointRef = Editor.pointRef(editor, start);
Transforms["delete"](editor, {
at: at,
voids: voids
});
at = pointRef.unref();
Transforms.setSelection(editor, {
anchor: at,
focus: at
});
}
}
if (!voids && Editor["void"](editor, {
at: at
})) {
return;
}
var _at = at,
path = _at.path,
offset = _at.offset;
if (text.length > 0) editor.apply({
type: 'insert_text',
path: path,
offset: offset,
text: text
});
});
}
};
function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) { symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); } keys.push.apply(keys, symbols); } return keys; }
function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
var Transforms = _objectSpread(_objectSpread(_objectSpread(_objectSpread({}, GeneralTransforms), NodeTransforms), SelectionTransforms), TextTransforms);
exports.Editor = Editor;
exports.Element = Element;
exports.Location = Location;
exports.Node = Node;
exports.Operation = Operation;
exports.Path = Path;
exports.PathRef = PathRef;
exports.Point = Point;
exports.PointRef = PointRef;
exports.Range = Range;
exports.RangeRef = RangeRef;
exports.Span = Span;
exports.Text = Text;
exports.Transforms = Transforms;
exports.createEditor = createEditor;
Object.defineProperty(exports, '__esModule', { value: true });
})));