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/**
 * MIT License
 * 
 * Copyright (c) 2014-present, Lee Byron and other contributors.
 * 
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 * 
 * The above copyright notice and this permission notice shall be included in all
 * copies or substantial portions of the Software.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */
var DELETE = 'delete';

// Constants describing the size of trie nodes.
var SHIFT = 5; // Resulted in best performance after ______?
var SIZE = 1 << SHIFT;
var MASK = SIZE - 1;

// A consistent shared value representing "not set" which equals nothing other
// than itself, and nothing that could be provided externally.
var NOT_SET = {};

// Boolean references, Rough equivalent of `bool &`.
function MakeRef() {
  return { value: false };
}

function SetRef(ref) {
  if (ref) {
    ref.value = true;
  }
}

// A function which returns a value representing an "owner" for transient writes
// to tries. The return value will only ever equal itself, and will not equal
// the return of any subsequent call of this function.
function OwnerID() {}

function ensureSize(iter) {
  if (iter.size === undefined) {
    iter.size = iter.__iterate(returnTrue);
  }
  return iter.size;
}

function wrapIndex(iter, index) {
  // This implements "is array index" which the ECMAString spec defines as:
  //
  //     A String property name P is an array index if and only if
  //     ToString(ToUint32(P)) is equal to P and ToUint32(P) is not equal
  //     to 2^32−1.
  //
  // http://www.ecma-international.org/ecma-262/6.0/#sec-array-exotic-objects
  if (typeof index !== 'number') {
    var uint32Index = index >>> 0; // N >>> 0 is shorthand for ToUint32
    if ('' + uint32Index !== index || uint32Index === 4294967295) {
      return NaN;
    }
    index = uint32Index;
  }
  return index < 0 ? ensureSize(iter) + index : index;
}

function returnTrue() {
  return true;
}

function wholeSlice(begin, end, size) {
  return (
    ((begin === 0 && !isNeg(begin)) ||
      (size !== undefined && begin <= -size)) &&
    (end === undefined || (size !== undefined && end >= size))
  );
}

function resolveBegin(begin, size) {
  return resolveIndex(begin, size, 0);
}

function resolveEnd(end, size) {
  return resolveIndex(end, size, size);
}

function resolveIndex(index, size, defaultIndex) {
  // Sanitize indices using this shorthand for ToInt32(argument)
  // http://www.ecma-international.org/ecma-262/6.0/#sec-toint32
  return index === undefined
    ? defaultIndex
    : isNeg(index)
    ? size === Infinity
      ? size
      : Math.max(0, size + index) | 0
    : size === undefined || size === index
    ? index
    : Math.min(size, index) | 0;
}

function isNeg(value) {
  // Account for -0 which is negative, but not less than 0.
  return value < 0 || (value === 0 && 1 / value === -Infinity);
}

var IS_COLLECTION_SYMBOL = '@@__IMMUTABLE_ITERABLE__@@';

function isCollection(maybeCollection) {
  return Boolean(maybeCollection && maybeCollection[IS_COLLECTION_SYMBOL]);
}

var IS_KEYED_SYMBOL = '@@__IMMUTABLE_KEYED__@@';

function isKeyed(maybeKeyed) {
  return Boolean(maybeKeyed && maybeKeyed[IS_KEYED_SYMBOL]);
}

var IS_INDEXED_SYMBOL = '@@__IMMUTABLE_INDEXED__@@';

function isIndexed(maybeIndexed) {
  return Boolean(maybeIndexed && maybeIndexed[IS_INDEXED_SYMBOL]);
}

function isAssociative(maybeAssociative) {
  return isKeyed(maybeAssociative) || isIndexed(maybeAssociative);
}

var Collection = function Collection(value) {
  return isCollection(value) ? value : Seq(value);
};

var KeyedCollection = /*@__PURE__*/(function (Collection) {
  function KeyedCollection(value) {
    return isKeyed(value) ? value : KeyedSeq(value);
  }

  if ( Collection ) KeyedCollection.__proto__ = Collection;
  KeyedCollection.prototype = Object.create( Collection && Collection.prototype );
  KeyedCollection.prototype.constructor = KeyedCollection;

  return KeyedCollection;
}(Collection));

var IndexedCollection = /*@__PURE__*/(function (Collection) {
  function IndexedCollection(value) {
    return isIndexed(value) ? value : IndexedSeq(value);
  }

  if ( Collection ) IndexedCollection.__proto__ = Collection;
  IndexedCollection.prototype = Object.create( Collection && Collection.prototype );
  IndexedCollection.prototype.constructor = IndexedCollection;

  return IndexedCollection;
}(Collection));

var SetCollection = /*@__PURE__*/(function (Collection) {
  function SetCollection(value) {
    return isCollection(value) && !isAssociative(value) ? value : SetSeq(value);
  }

  if ( Collection ) SetCollection.__proto__ = Collection;
  SetCollection.prototype = Object.create( Collection && Collection.prototype );
  SetCollection.prototype.constructor = SetCollection;

  return SetCollection;
}(Collection));

Collection.Keyed = KeyedCollection;
Collection.Indexed = IndexedCollection;
Collection.Set = SetCollection;

var IS_SEQ_SYMBOL = '@@__IMMUTABLE_SEQ__@@';

function isSeq(maybeSeq) {
  return Boolean(maybeSeq && maybeSeq[IS_SEQ_SYMBOL]);
}

var IS_RECORD_SYMBOL = '@@__IMMUTABLE_RECORD__@@';

function isRecord(maybeRecord) {
  return Boolean(maybeRecord && maybeRecord[IS_RECORD_SYMBOL]);
}

function isImmutable(maybeImmutable) {
  return isCollection(maybeImmutable) || isRecord(maybeImmutable);
}

var IS_ORDERED_SYMBOL = '@@__IMMUTABLE_ORDERED__@@';

function isOrdered(maybeOrdered) {
  return Boolean(maybeOrdered && maybeOrdered[IS_ORDERED_SYMBOL]);
}

var ITERATE_KEYS = 0;
var ITERATE_VALUES = 1;
var ITERATE_ENTRIES = 2;

var REAL_ITERATOR_SYMBOL = typeof Symbol === 'function' && Symbol.iterator;
var FAUX_ITERATOR_SYMBOL = '@@iterator';

var ITERATOR_SYMBOL = REAL_ITERATOR_SYMBOL || FAUX_ITERATOR_SYMBOL;

var Iterator = function Iterator(next) {
  this.next = next;
};

Iterator.prototype.toString = function toString () {
  return '[Iterator]';
};

Iterator.KEYS = ITERATE_KEYS;
Iterator.VALUES = ITERATE_VALUES;
Iterator.ENTRIES = ITERATE_ENTRIES;

Iterator.prototype.inspect = Iterator.prototype.toSource = function () {
  return this.toString();
};
Iterator.prototype[ITERATOR_SYMBOL] = function () {
  return this;
};

function iteratorValue(type, k, v, iteratorResult) {
  var value = type === 0 ? k : type === 1 ? v : [k, v];
  iteratorResult
    ? (iteratorResult.value = value)
    : (iteratorResult = {
        value: value,
        done: false,
      });
  return iteratorResult;
}

function iteratorDone() {
  return { value: undefined, done: true };
}

function hasIterator(maybeIterable) {
  if (Array.isArray(maybeIterable)) {
    // IE11 trick as it does not support `Symbol.iterator`
    return true;
  }

  return !!getIteratorFn(maybeIterable);
}

function isIterator(maybeIterator) {
  return maybeIterator && typeof maybeIterator.next === 'function';
}

function getIterator(iterable) {
  var iteratorFn = getIteratorFn(iterable);
  return iteratorFn && iteratorFn.call(iterable);
}

function getIteratorFn(iterable) {
  var iteratorFn =
    iterable &&
    ((REAL_ITERATOR_SYMBOL && iterable[REAL_ITERATOR_SYMBOL]) ||
      iterable[FAUX_ITERATOR_SYMBOL]);
  if (typeof iteratorFn === 'function') {
    return iteratorFn;
  }
}

function isEntriesIterable(maybeIterable) {
  var iteratorFn = getIteratorFn(maybeIterable);
  return iteratorFn && iteratorFn === maybeIterable.entries;
}

function isKeysIterable(maybeIterable) {
  var iteratorFn = getIteratorFn(maybeIterable);
  return iteratorFn && iteratorFn === maybeIterable.keys;
}

var hasOwnProperty = Object.prototype.hasOwnProperty;

function isArrayLike(value) {
  if (Array.isArray(value) || typeof value === 'string') {
    return true;
  }

  return (
    value &&
    typeof value === 'object' &&
    Number.isInteger(value.length) &&
    value.length >= 0 &&
    (value.length === 0
      ? // Only {length: 0} is considered Array-like.
        Object.keys(value).length === 1
      : // An object is only Array-like if it has a property where the last value
        // in the array-like may be found (which could be undefined).
        value.hasOwnProperty(value.length - 1))
  );
}

var Seq = /*@__PURE__*/(function (Collection) {
  function Seq(value) {
    return value === undefined || value === null
      ? emptySequence()
      : isImmutable(value)
      ? value.toSeq()
      : seqFromValue(value);
  }

  if ( Collection ) Seq.__proto__ = Collection;
  Seq.prototype = Object.create( Collection && Collection.prototype );
  Seq.prototype.constructor = Seq;

  Seq.prototype.toSeq = function toSeq () {
    return this;
  };

  Seq.prototype.toString = function toString () {
    return this.__toString('Seq {', '}');
  };

  Seq.prototype.cacheResult = function cacheResult () {
    if (!this._cache && this.__iterateUncached) {
      this._cache = this.entrySeq().toArray();
      this.size = this._cache.length;
    }
    return this;
  };

  // abstract __iterateUncached(fn, reverse)

  Seq.prototype.__iterate = function __iterate (fn, reverse) {
    var cache = this._cache;
    if (cache) {
      var size = cache.length;
      var i = 0;
      while (i !== size) {
        var entry = cache[reverse ? size - ++i : i++];
        if (fn(entry[1], entry[0], this) === false) {
          break;
        }
      }
      return i;
    }
    return this.__iterateUncached(fn, reverse);
  };

  // abstract __iteratorUncached(type, reverse)

  Seq.prototype.__iterator = function __iterator (type, reverse) {
    var cache = this._cache;
    if (cache) {
      var size = cache.length;
      var i = 0;
      return new Iterator(function () {
        if (i === size) {
          return iteratorDone();
        }
        var entry = cache[reverse ? size - ++i : i++];
        return iteratorValue(type, entry[0], entry[1]);
      });
    }
    return this.__iteratorUncached(type, reverse);
  };

  return Seq;
}(Collection));

var KeyedSeq = /*@__PURE__*/(function (Seq) {
  function KeyedSeq(value) {
    return value === undefined || value === null
      ? emptySequence().toKeyedSeq()
      : isCollection(value)
      ? isKeyed(value)
        ? value.toSeq()
        : value.fromEntrySeq()
      : isRecord(value)
      ? value.toSeq()
      : keyedSeqFromValue(value);
  }

  if ( Seq ) KeyedSeq.__proto__ = Seq;
  KeyedSeq.prototype = Object.create( Seq && Seq.prototype );
  KeyedSeq.prototype.constructor = KeyedSeq;

  KeyedSeq.prototype.toKeyedSeq = function toKeyedSeq () {
    return this;
  };

  return KeyedSeq;
}(Seq));

var IndexedSeq = /*@__PURE__*/(function (Seq) {
  function IndexedSeq(value) {
    return value === undefined || value === null
      ? emptySequence()
      : isCollection(value)
      ? isKeyed(value)
        ? value.entrySeq()
        : value.toIndexedSeq()
      : isRecord(value)
      ? value.toSeq().entrySeq()
      : indexedSeqFromValue(value);
  }

  if ( Seq ) IndexedSeq.__proto__ = Seq;
  IndexedSeq.prototype = Object.create( Seq && Seq.prototype );
  IndexedSeq.prototype.constructor = IndexedSeq;

  IndexedSeq.of = function of (/*...values*/) {
    return IndexedSeq(arguments);
  };

  IndexedSeq.prototype.toIndexedSeq = function toIndexedSeq () {
    return this;
  };

  IndexedSeq.prototype.toString = function toString () {
    return this.__toString('Seq [', ']');
  };

  return IndexedSeq;
}(Seq));

var SetSeq = /*@__PURE__*/(function (Seq) {
  function SetSeq(value) {
    return (
      isCollection(value) && !isAssociative(value) ? value : IndexedSeq(value)
    ).toSetSeq();
  }

  if ( Seq ) SetSeq.__proto__ = Seq;
  SetSeq.prototype = Object.create( Seq && Seq.prototype );
  SetSeq.prototype.constructor = SetSeq;

  SetSeq.of = function of (/*...values*/) {
    return SetSeq(arguments);
  };

  SetSeq.prototype.toSetSeq = function toSetSeq () {
    return this;
  };

  return SetSeq;
}(Seq));

Seq.isSeq = isSeq;
Seq.Keyed = KeyedSeq;
Seq.Set = SetSeq;
Seq.Indexed = IndexedSeq;

Seq.prototype[IS_SEQ_SYMBOL] = true;

// #pragma Root Sequences

var ArraySeq = /*@__PURE__*/(function (IndexedSeq) {
  function ArraySeq(array) {
    this._array = array;
    this.size = array.length;
  }

  if ( IndexedSeq ) ArraySeq.__proto__ = IndexedSeq;
  ArraySeq.prototype = Object.create( IndexedSeq && IndexedSeq.prototype );
  ArraySeq.prototype.constructor = ArraySeq;

  ArraySeq.prototype.get = function get (index, notSetValue) {
    return this.has(index) ? this._array[wrapIndex(this, index)] : notSetValue;
  };

  ArraySeq.prototype.__iterate = function __iterate (fn, reverse) {
    var array = this._array;
    var size = array.length;
    var i = 0;
    while (i !== size) {
      var ii = reverse ? size - ++i : i++;
      if (fn(array[ii], ii, this) === false) {
        break;
      }
    }
    return i;
  };

  ArraySeq.prototype.__iterator = function __iterator (type, reverse) {
    var array = this._array;
    var size = array.length;
    var i = 0;
    return new Iterator(function () {
      if (i === size) {
        return iteratorDone();
      }
      var ii = reverse ? size - ++i : i++;
      return iteratorValue(type, ii, array[ii]);
    });
  };

  return ArraySeq;
}(IndexedSeq));

var ObjectSeq = /*@__PURE__*/(function (KeyedSeq) {
  function ObjectSeq(object) {
    var keys = Object.keys(object).concat(
      Object.getOwnPropertySymbols ? Object.getOwnPropertySymbols(object) : []
    );
    this._object = object;
    this._keys = keys;
    this.size = keys.length;
  }

  if ( KeyedSeq ) ObjectSeq.__proto__ = KeyedSeq;
  ObjectSeq.prototype = Object.create( KeyedSeq && KeyedSeq.prototype );
  ObjectSeq.prototype.constructor = ObjectSeq;

  ObjectSeq.prototype.get = function get (key, notSetValue) {
    if (notSetValue !== undefined && !this.has(key)) {
      return notSetValue;
    }
    return this._object[key];
  };

  ObjectSeq.prototype.has = function has (key) {
    return hasOwnProperty.call(this._object, key);
  };

  ObjectSeq.prototype.__iterate = function __iterate (fn, reverse) {
    var object = this._object;
    var keys = this._keys;
    var size = keys.length;
    var i = 0;
    while (i !== size) {
      var key = keys[reverse ? size - ++i : i++];
      if (fn(object[key], key, this) === false) {
        break;
      }
    }
    return i;
  };

  ObjectSeq.prototype.__iterator = function __iterator (type, reverse) {
    var object = this._object;
    var keys = this._keys;
    var size = keys.length;
    var i = 0;
    return new Iterator(function () {
      if (i === size) {
        return iteratorDone();
      }
      var key = keys[reverse ? size - ++i : i++];
      return iteratorValue(type, key, object[key]);
    });
  };

  return ObjectSeq;
}(KeyedSeq));
ObjectSeq.prototype[IS_ORDERED_SYMBOL] = true;

var CollectionSeq = /*@__PURE__*/(function (IndexedSeq) {
  function CollectionSeq(collection) {
    this._collection = collection;
    this.size = collection.length || collection.size;
  }

  if ( IndexedSeq ) CollectionSeq.__proto__ = IndexedSeq;
  CollectionSeq.prototype = Object.create( IndexedSeq && IndexedSeq.prototype );
  CollectionSeq.prototype.constructor = CollectionSeq;

  CollectionSeq.prototype.__iterateUncached = function __iterateUncached (fn, reverse) {
    if (reverse) {
      return this.cacheResult().__iterate(fn, reverse);
    }
    var collection = this._collection;
    var iterator = getIterator(collection);
    var iterations = 0;
    if (isIterator(iterator)) {
      var step;
      while (!(step = iterator.next()).done) {
        if (fn(step.value, iterations++, this) === false) {
          break;
        }
      }
    }
    return iterations;
  };

  CollectionSeq.prototype.__iteratorUncached = function __iteratorUncached (type, reverse) {
    if (reverse) {
      return this.cacheResult().__iterator(type, reverse);
    }
    var collection = this._collection;
    var iterator = getIterator(collection);
    if (!isIterator(iterator)) {
      return new Iterator(iteratorDone);
    }
    var iterations = 0;
    return new Iterator(function () {
      var step = iterator.next();
      return step.done ? step : iteratorValue(type, iterations++, step.value);
    });
  };

  return CollectionSeq;
}(IndexedSeq));

// # pragma Helper functions

var EMPTY_SEQ;

function emptySequence() {
  return EMPTY_SEQ || (EMPTY_SEQ = new ArraySeq([]));
}

function keyedSeqFromValue(value) {
  var seq = maybeIndexedSeqFromValue(value);
  if (seq) {
    return seq.fromEntrySeq();
  }
  if (typeof value === 'object') {
    return new ObjectSeq(value);
  }
  throw new TypeError(
    'Expected Array or collection object of [k, v] entries, or keyed object: ' +
      value
  );
}

function indexedSeqFromValue(value) {
  var seq = maybeIndexedSeqFromValue(value);
  if (seq) {
    return seq;
  }
  throw new TypeError(
    'Expected Array or collection object of values: ' + value
  );
}

function seqFromValue(value) {
  var seq = maybeIndexedSeqFromValue(value);
  if (seq) {
    return isEntriesIterable(value)
      ? seq.fromEntrySeq()
      : isKeysIterable(value)
      ? seq.toSetSeq()
      : seq;
  }
  if (typeof value === 'object') {
    return new ObjectSeq(value);
  }
  throw new TypeError(
    'Expected Array or collection object of values, or keyed object: ' + value
  );
}

function maybeIndexedSeqFromValue(value) {
  return isArrayLike(value)
    ? new ArraySeq(value)
    : hasIterator(value)
    ? new CollectionSeq(value)
    : undefined;
}

var IS_MAP_SYMBOL = '@@__IMMUTABLE_MAP__@@';

function isMap(maybeMap) {
  return Boolean(maybeMap && maybeMap[IS_MAP_SYMBOL]);
}

function isOrderedMap(maybeOrderedMap) {
  return isMap(maybeOrderedMap) && isOrdered(maybeOrderedMap);
}

function isValueObject(maybeValue) {
  return Boolean(
    maybeValue &&
      typeof maybeValue.equals === 'function' &&
      typeof maybeValue.hashCode === 'function'
  );
}

/**
 * An extension of the "same-value" algorithm as [described for use by ES6 Map
 * and Set](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Map#Key_equality)
 *
 * NaN is considered the same as NaN, however -0 and 0 are considered the same
 * value, which is different from the algorithm described by
 * [`Object.is`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/is).
 *
 * This is extended further to allow Objects to describe the values they
 * represent, by way of `valueOf` or `equals` (and `hashCode`).
 *
 * Note: because of this extension, the key equality of Immutable.Map and the
 * value equality of Immutable.Set will differ from ES6 Map and Set.
 *
 * ### Defining custom values
 *
 * The easiest way to describe the value an object represents is by implementing
 * `valueOf`. For example, `Date` represents a value by returning a unix
 * timestamp for `valueOf`:
 *
 *     var date1 = new Date(1234567890000); // Fri Feb 13 2009 ...
 *     var date2 = new Date(1234567890000);
 *     date1.valueOf(); // 1234567890000
 *     assert( date1 !== date2 );
 *     assert( Immutable.is( date1, date2 ) );
 *
 * Note: overriding `valueOf` may have other implications if you use this object
 * where JavaScript expects a primitive, such as implicit string coercion.
 *
 * For more complex types, especially collections, implementing `valueOf` may
 * not be performant. An alternative is to implement `equals` and `hashCode`.
 *
 * `equals` takes another object, presumably of similar type, and returns true
 * if it is equal. Equality is symmetrical, so the same result should be
 * returned if this and the argument are flipped.
 *
 *     assert( a.equals(b) === b.equals(a) );
 *
 * `hashCode` returns a 32bit integer number representing the object which will
 * be used to determine how to store the value object in a Map or Set. You must
 * provide both or neither methods, one must not exist without the other.
 *
 * Also, an important relationship between these methods must be upheld: if two
 * values are equal, they *must* return the same hashCode. If the values are not
 * equal, they might have the same hashCode; this is called a hash collision,
 * and while undesirable for performance reasons, it is acceptable.
 *
 *     if (a.equals(b)) {
 *       assert( a.hashCode() === b.hashCode() );
 *     }
 *
 * All Immutable collections are Value Objects: they implement `equals()`
 * and `hashCode()`.
 */
function is(valueA, valueB) {
  if (valueA === valueB || (valueA !== valueA && valueB !== valueB)) {
    return true;
  }
  if (!valueA || !valueB) {
    return false;
  }
  if (
    typeof valueA.valueOf === 'function' &&
    typeof valueB.valueOf === 'function'
  ) {
    valueA = valueA.valueOf();
    valueB = valueB.valueOf();
    if (valueA === valueB || (valueA !== valueA && valueB !== valueB)) {
      return true;
    }
    if (!valueA || !valueB) {
      return false;
    }
  }
  return !!(
    isValueObject(valueA) &&
    isValueObject(valueB) &&
    valueA.equals(valueB)
  );
}

var imul =
  typeof Math.imul === 'function' && Math.imul(0xffffffff, 2) === -2
    ? Math.imul
    : function imul(a, b) {
        a |= 0; // int
        b |= 0; // int
        var c = a & 0xffff;
        var d = b & 0xffff;
        // Shift by 0 fixes the sign on the high part.
        return (c * d + ((((a >>> 16) * d + c * (b >>> 16)) << 16) >>> 0)) | 0; // int
      };

// v8 has an optimization for storing 31-bit signed numbers.
// Values which have either 00 or 11 as the high order bits qualify.
// This function drops the highest order bit in a signed number, maintaining
// the sign bit.
function smi(i32) {
  return ((i32 >>> 1) & 0x40000000) | (i32 & 0xbfffffff);
}

var defaultValueOf = Object.prototype.valueOf;

function hash(o) {
  if (o == null) {
    return hashNullish(o);
  }

  if (typeof o.hashCode === 'function') {
    // Drop any high bits from accidentally long hash codes.
    return smi(o.hashCode(o));
  }

  var v = valueOf(o);

  if (v == null) {
    return hashNullish(v);
  }

  switch (typeof v) {
    case 'boolean':
      // The hash values for built-in constants are a 1 value for each 5-byte
      // shift region expect for the first, which encodes the value. This
      // reduces the odds of a hash collision for these common values.
      return v ? 0x42108421 : 0x42108420;
    case 'number':
      return hashNumber(v);
    case 'string':
      return v.length > STRING_HASH_CACHE_MIN_STRLEN
        ? cachedHashString(v)
        : hashString(v);
    case 'object':
    case 'function':
      return hashJSObj(v);
    case 'symbol':
      return hashSymbol(v);
    default:
      if (typeof v.toString === 'function') {
        return hashString(v.toString());
      }
      throw new Error('Value type ' + typeof v + ' cannot be hashed.');
  }
}

function hashNullish(nullish) {
  return nullish === null ? 0x42108422 : /* undefined */ 0x42108423;
}

// Compress arbitrarily large numbers into smi hashes.
function hashNumber(n) {
  if (n !== n || n === Infinity) {
    return 0;
  }
  var hash = n | 0;
  if (hash !== n) {
    hash ^= n * 0xffffffff;
  }
  while (n > 0xffffffff) {
    n /= 0xffffffff;
    hash ^= n;
  }
  return smi(hash);
}

function cachedHashString(string) {
  var hashed = stringHashCache[string];
  if (hashed === undefined) {
    hashed = hashString(string);
    if (STRING_HASH_CACHE_SIZE === STRING_HASH_CACHE_MAX_SIZE) {
      STRING_HASH_CACHE_SIZE = 0;
      stringHashCache = {};
    }
    STRING_HASH_CACHE_SIZE++;
    stringHashCache[string] = hashed;
  }
  return hashed;
}

// http://jsperf.com/hashing-strings
function hashString(string) {
  // This is the hash from JVM
  // The hash code for a string is computed as
  // s[0] * 31 ^ (n - 1) + s[1] * 31 ^ (n - 2) + ... + s[n - 1],
  // where s[i] is the ith character of the string and n is the length of
  // the string. We "mod" the result to make it between 0 (inclusive) and 2^31
  // (exclusive) by dropping high bits.
  var hashed = 0;
  for (var ii = 0; ii < string.length; ii++) {
    hashed = (31 * hashed + string.charCodeAt(ii)) | 0;
  }
  return smi(hashed);
}

function hashSymbol(sym) {
  var hashed = symbolMap[sym];
  if (hashed !== undefined) {
    return hashed;
  }

  hashed = nextHash();

  symbolMap[sym] = hashed;

  return hashed;
}

function hashJSObj(obj) {
  var hashed;
  if (usingWeakMap) {
    hashed = weakMap.get(obj);
    if (hashed !== undefined) {
      return hashed;
    }
  }

  hashed = obj[UID_HASH_KEY];
  if (hashed !== undefined) {
    return hashed;
  }

  if (!canDefineProperty) {
    hashed = obj.propertyIsEnumerable && obj.propertyIsEnumerable[UID_HASH_KEY];
    if (hashed !== undefined) {
      return hashed;
    }

    hashed = getIENodeHash(obj);
    if (hashed !== undefined) {
      return hashed;
    }
  }

  hashed = nextHash();

  if (usingWeakMap) {
    weakMap.set(obj, hashed);
  } else if (isExtensible !== undefined && isExtensible(obj) === false) {
    throw new Error('Non-extensible objects are not allowed as keys.');
  } else if (canDefineProperty) {
    Object.defineProperty(obj, UID_HASH_KEY, {
      enumerable: false,
      configurable: false,
      writable: false,
      value: hashed,
    });
  } else if (
    obj.propertyIsEnumerable !== undefined &&
    obj.propertyIsEnumerable === obj.constructor.prototype.propertyIsEnumerable
  ) {
    // Since we can't define a non-enumerable property on the object
    // we'll hijack one of the less-used non-enumerable properties to
    // save our hash on it. Since this is a function it will not show up in
    // `JSON.stringify` which is what we want.
    obj.propertyIsEnumerable = function () {
      return this.constructor.prototype.propertyIsEnumerable.apply(
        this,
        arguments
      );
    };
    obj.propertyIsEnumerable[UID_HASH_KEY] = hashed;
  } else if (obj.nodeType !== undefined) {
    // At this point we couldn't get the IE `uniqueID` to use as a hash
    // and we couldn't use a non-enumerable property to exploit the
    // dontEnum bug so we simply add the `UID_HASH_KEY` on the node
    // itself.
    obj[UID_HASH_KEY] = hashed;
  } else {
    throw new Error('Unable to set a non-enumerable property on object.');
  }

  return hashed;
}

// Get references to ES5 object methods.
var isExtensible = Object.isExtensible;

// True if Object.defineProperty works as expected. IE8 fails this test.
var canDefineProperty = (function () {
  try {
    Object.defineProperty({}, '@', {});
    return true;
  } catch (e) {
    return false;
  }
})();

// IE has a `uniqueID` property on DOM nodes. We can construct the hash from it
// and avoid memory leaks from the IE cloneNode bug.
function getIENodeHash(node) {
  if (node && node.nodeType > 0) {
    switch (node.nodeType) {
      case 1: // Element
        return node.uniqueID;
      case 9: // Document
        return node.documentElement && node.documentElement.uniqueID;
    }
  }
}

function valueOf(obj) {
  return obj.valueOf !== defaultValueOf && typeof obj.valueOf === 'function'
    ? obj.valueOf(obj)
    : obj;
}

function nextHash() {
  var nextHash = ++_objHashUID;
  if (_objHashUID & 0x40000000) {
    _objHashUID = 0;
  }
  return nextHash;
}

// If possible, use a WeakMap.
var usingWeakMap = typeof WeakMap === 'function';
var weakMap;
if (usingWeakMap) {
  weakMap = new WeakMap();
}

var symbolMap = Object.create(null);

var _objHashUID = 0;

var UID_HASH_KEY = '__immutablehash__';
if (typeof Symbol === 'function') {
  UID_HASH_KEY = Symbol(UID_HASH_KEY);
}

var STRING_HASH_CACHE_MIN_STRLEN = 16;
var STRING_HASH_CACHE_MAX_SIZE = 255;
var STRING_HASH_CACHE_SIZE = 0;
var stringHashCache = {};

var ToKeyedSequence = /*@__PURE__*/(function (KeyedSeq) {
  function ToKeyedSequence(indexed, useKeys) {
    this._iter = indexed;
    this._useKeys = useKeys;
    this.size = indexed.size;
  }

  if ( KeyedSeq ) ToKeyedSequence.__proto__ = KeyedSeq;
  ToKeyedSequence.prototype = Object.create( KeyedSeq && KeyedSeq.prototype );
  ToKeyedSequence.prototype.constructor = ToKeyedSequence;

  ToKeyedSequence.prototype.get = function get (key, notSetValue) {
    return this._iter.get(key, notSetValue);
  };

  ToKeyedSequence.prototype.has = function has (key) {
    return this._iter.has(key);
  };

  ToKeyedSequence.prototype.valueSeq = function valueSeq () {
    return this._iter.valueSeq();
  };

  ToKeyedSequence.prototype.reverse = function reverse () {
    var this$1$1 = this;

    var reversedSequence = reverseFactory(this, true);
    if (!this._useKeys) {
      reversedSequence.valueSeq = function () { return this$1$1._iter.toSeq().reverse(); };
    }
    return reversedSequence;
  };

  ToKeyedSequence.prototype.map = function map (mapper, context) {
    var this$1$1 = this;

    var mappedSequence = mapFactory(this, mapper, context);
    if (!this._useKeys) {
      mappedSequence.valueSeq = function () { return this$1$1._iter.toSeq().map(mapper, context); };
    }
    return mappedSequence;
  };

  ToKeyedSequence.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    return this._iter.__iterate(function (v, k) { return fn(v, k, this$1$1); }, reverse);
  };

  ToKeyedSequence.prototype.__iterator = function __iterator (type, reverse) {
    return this._iter.__iterator(type, reverse);
  };

  return ToKeyedSequence;
}(KeyedSeq));
ToKeyedSequence.prototype[IS_ORDERED_SYMBOL] = true;

var ToIndexedSequence = /*@__PURE__*/(function (IndexedSeq) {
  function ToIndexedSequence(iter) {
    this._iter = iter;
    this.size = iter.size;
  }

  if ( IndexedSeq ) ToIndexedSequence.__proto__ = IndexedSeq;
  ToIndexedSequence.prototype = Object.create( IndexedSeq && IndexedSeq.prototype );
  ToIndexedSequence.prototype.constructor = ToIndexedSequence;

  ToIndexedSequence.prototype.includes = function includes (value) {
    return this._iter.includes(value);
  };

  ToIndexedSequence.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    var i = 0;
    reverse && ensureSize(this);
    return this._iter.__iterate(
      function (v) { return fn(v, reverse ? this$1$1.size - ++i : i++, this$1$1); },
      reverse
    );
  };

  ToIndexedSequence.prototype.__iterator = function __iterator (type, reverse) {
    var this$1$1 = this;

    var iterator = this._iter.__iterator(ITERATE_VALUES, reverse);
    var i = 0;
    reverse && ensureSize(this);
    return new Iterator(function () {
      var step = iterator.next();
      return step.done
        ? step
        : iteratorValue(
            type,
            reverse ? this$1$1.size - ++i : i++,
            step.value,
            step
          );
    });
  };

  return ToIndexedSequence;
}(IndexedSeq));

var ToSetSequence = /*@__PURE__*/(function (SetSeq) {
  function ToSetSequence(iter) {
    this._iter = iter;
    this.size = iter.size;
  }

  if ( SetSeq ) ToSetSequence.__proto__ = SetSeq;
  ToSetSequence.prototype = Object.create( SetSeq && SetSeq.prototype );
  ToSetSequence.prototype.constructor = ToSetSequence;

  ToSetSequence.prototype.has = function has (key) {
    return this._iter.includes(key);
  };

  ToSetSequence.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    return this._iter.__iterate(function (v) { return fn(v, v, this$1$1); }, reverse);
  };

  ToSetSequence.prototype.__iterator = function __iterator (type, reverse) {
    var iterator = this._iter.__iterator(ITERATE_VALUES, reverse);
    return new Iterator(function () {
      var step = iterator.next();
      return step.done
        ? step
        : iteratorValue(type, step.value, step.value, step);
    });
  };

  return ToSetSequence;
}(SetSeq));

var FromEntriesSequence = /*@__PURE__*/(function (KeyedSeq) {
  function FromEntriesSequence(entries) {
    this._iter = entries;
    this.size = entries.size;
  }

  if ( KeyedSeq ) FromEntriesSequence.__proto__ = KeyedSeq;
  FromEntriesSequence.prototype = Object.create( KeyedSeq && KeyedSeq.prototype );
  FromEntriesSequence.prototype.constructor = FromEntriesSequence;

  FromEntriesSequence.prototype.entrySeq = function entrySeq () {
    return this._iter.toSeq();
  };

  FromEntriesSequence.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    return this._iter.__iterate(function (entry) {
      // Check if entry exists first so array access doesn't throw for holes
      // in the parent iteration.
      if (entry) {
        validateEntry(entry);
        var indexedCollection = isCollection(entry);
        return fn(
          indexedCollection ? entry.get(1) : entry[1],
          indexedCollection ? entry.get(0) : entry[0],
          this$1$1
        );
      }
    }, reverse);
  };

  FromEntriesSequence.prototype.__iterator = function __iterator (type, reverse) {
    var iterator = this._iter.__iterator(ITERATE_VALUES, reverse);
    return new Iterator(function () {
      while (true) {
        var step = iterator.next();
        if (step.done) {
          return step;
        }
        var entry = step.value;
        // Check if entry exists first so array access doesn't throw for holes
        // in the parent iteration.
        if (entry) {
          validateEntry(entry);
          var indexedCollection = isCollection(entry);
          return iteratorValue(
            type,
            indexedCollection ? entry.get(0) : entry[0],
            indexedCollection ? entry.get(1) : entry[1],
            step
          );
        }
      }
    });
  };

  return FromEntriesSequence;
}(KeyedSeq));

ToIndexedSequence.prototype.cacheResult =
  ToKeyedSequence.prototype.cacheResult =
  ToSetSequence.prototype.cacheResult =
  FromEntriesSequence.prototype.cacheResult =
    cacheResultThrough;

function flipFactory(collection) {
  var flipSequence = makeSequence(collection);
  flipSequence._iter = collection;
  flipSequence.size = collection.size;
  flipSequence.flip = function () { return collection; };
  flipSequence.reverse = function () {
    var reversedSequence = collection.reverse.apply(this); // super.reverse()
    reversedSequence.flip = function () { return collection.reverse(); };
    return reversedSequence;
  };
  flipSequence.has = function (key) { return collection.includes(key); };
  flipSequence.includes = function (key) { return collection.has(key); };
  flipSequence.cacheResult = cacheResultThrough;
  flipSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    return collection.__iterate(function (v, k) { return fn(k, v, this$1$1) !== false; }, reverse);
  };
  flipSequence.__iteratorUncached = function (type, reverse) {
    if (type === ITERATE_ENTRIES) {
      var iterator = collection.__iterator(type, reverse);
      return new Iterator(function () {
        var step = iterator.next();
        if (!step.done) {
          var k = step.value[0];
          step.value[0] = step.value[1];
          step.value[1] = k;
        }
        return step;
      });
    }
    return collection.__iterator(
      type === ITERATE_VALUES ? ITERATE_KEYS : ITERATE_VALUES,
      reverse
    );
  };
  return flipSequence;
}

function mapFactory(collection, mapper, context) {
  var mappedSequence = makeSequence(collection);
  mappedSequence.size = collection.size;
  mappedSequence.has = function (key) { return collection.has(key); };
  mappedSequence.get = function (key, notSetValue) {
    var v = collection.get(key, NOT_SET);
    return v === NOT_SET
      ? notSetValue
      : mapper.call(context, v, key, collection);
  };
  mappedSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    return collection.__iterate(
      function (v, k, c) { return fn(mapper.call(context, v, k, c), k, this$1$1) !== false; },
      reverse
    );
  };
  mappedSequence.__iteratorUncached = function (type, reverse) {
    var iterator = collection.__iterator(ITERATE_ENTRIES, reverse);
    return new Iterator(function () {
      var step = iterator.next();
      if (step.done) {
        return step;
      }
      var entry = step.value;
      var key = entry[0];
      return iteratorValue(
        type,
        key,
        mapper.call(context, entry[1], key, collection),
        step
      );
    });
  };
  return mappedSequence;
}

function reverseFactory(collection, useKeys) {
  var this$1$1 = this;

  var reversedSequence = makeSequence(collection);
  reversedSequence._iter = collection;
  reversedSequence.size = collection.size;
  reversedSequence.reverse = function () { return collection; };
  if (collection.flip) {
    reversedSequence.flip = function () {
      var flipSequence = flipFactory(collection);
      flipSequence.reverse = function () { return collection.flip(); };
      return flipSequence;
    };
  }
  reversedSequence.get = function (key, notSetValue) { return collection.get(useKeys ? key : -1 - key, notSetValue); };
  reversedSequence.has = function (key) { return collection.has(useKeys ? key : -1 - key); };
  reversedSequence.includes = function (value) { return collection.includes(value); };
  reversedSequence.cacheResult = cacheResultThrough;
  reversedSequence.__iterate = function (fn, reverse) {
    var this$1$1 = this;

    var i = 0;
    reverse && ensureSize(collection);
    return collection.__iterate(
      function (v, k) { return fn(v, useKeys ? k : reverse ? this$1$1.size - ++i : i++, this$1$1); },
      !reverse
    );
  };
  reversedSequence.__iterator = function (type, reverse) {
    var i = 0;
    reverse && ensureSize(collection);
    var iterator = collection.__iterator(ITERATE_ENTRIES, !reverse);
    return new Iterator(function () {
      var step = iterator.next();
      if (step.done) {
        return step;
      }
      var entry = step.value;
      return iteratorValue(
        type,
        useKeys ? entry[0] : reverse ? this$1$1.size - ++i : i++,
        entry[1],
        step
      );
    });
  };
  return reversedSequence;
}

function filterFactory(collection, predicate, context, useKeys) {
  var filterSequence = makeSequence(collection);
  if (useKeys) {
    filterSequence.has = function (key) {
      var v = collection.get(key, NOT_SET);
      return v !== NOT_SET && !!predicate.call(context, v, key, collection);
    };
    filterSequence.get = function (key, notSetValue) {
      var v = collection.get(key, NOT_SET);
      return v !== NOT_SET && predicate.call(context, v, key, collection)
        ? v
        : notSetValue;
    };
  }
  filterSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    var iterations = 0;
    collection.__iterate(function (v, k, c) {
      if (predicate.call(context, v, k, c)) {
        iterations++;
        return fn(v, useKeys ? k : iterations - 1, this$1$1);
      }
    }, reverse);
    return iterations;
  };
  filterSequence.__iteratorUncached = function (type, reverse) {
    var iterator = collection.__iterator(ITERATE_ENTRIES, reverse);
    var iterations = 0;
    return new Iterator(function () {
      while (true) {
        var step = iterator.next();
        if (step.done) {
          return step;
        }
        var entry = step.value;
        var key = entry[0];
        var value = entry[1];
        if (predicate.call(context, value, key, collection)) {
          return iteratorValue(type, useKeys ? key : iterations++, value, step);
        }
      }
    });
  };
  return filterSequence;
}

function countByFactory(collection, grouper, context) {
  var groups = Map().asMutable();
  collection.__iterate(function (v, k) {
    groups.update(grouper.call(context, v, k, collection), 0, function (a) { return a + 1; });
  });
  return groups.asImmutable();
}

function groupByFactory(collection, grouper, context) {
  var isKeyedIter = isKeyed(collection);
  var groups = (isOrdered(collection) ? OrderedMap() : Map()).asMutable();
  collection.__iterate(function (v, k) {
    groups.update(
      grouper.call(context, v, k, collection),
      function (a) { return ((a = a || []), a.push(isKeyedIter ? [k, v] : v), a); }
    );
  });
  var coerce = collectionClass(collection);
  return groups.map(function (arr) { return reify(collection, coerce(arr)); }).asImmutable();
}

function partitionFactory(collection, predicate, context) {
  var isKeyedIter = isKeyed(collection);
  var groups = [[], []];
  collection.__iterate(function (v, k) {
    groups[predicate.call(context, v, k, collection) ? 1 : 0].push(
      isKeyedIter ? [k, v] : v
    );
  });
  var coerce = collectionClass(collection);
  return groups.map(function (arr) { return reify(collection, coerce(arr)); });
}

function sliceFactory(collection, begin, end, useKeys) {
  var originalSize = collection.size;

  if (wholeSlice(begin, end, originalSize)) {
    return collection;
  }

  var resolvedBegin = resolveBegin(begin, originalSize);
  var resolvedEnd = resolveEnd(end, originalSize);

  // begin or end will be NaN if they were provided as negative numbers and
  // this collection's size is unknown. In that case, cache first so there is
  // a known size and these do not resolve to NaN.
  if (resolvedBegin !== resolvedBegin || resolvedEnd !== resolvedEnd) {
    return sliceFactory(collection.toSeq().cacheResult(), begin, end, useKeys);
  }

  // Note: resolvedEnd is undefined when the original sequence's length is
  // unknown and this slice did not supply an end and should contain all
  // elements after resolvedBegin.
  // In that case, resolvedSize will be NaN and sliceSize will remain undefined.
  var resolvedSize = resolvedEnd - resolvedBegin;
  var sliceSize;
  if (resolvedSize === resolvedSize) {
    sliceSize = resolvedSize < 0 ? 0 : resolvedSize;
  }

  var sliceSeq = makeSequence(collection);

  // If collection.size is undefined, the size of the realized sliceSeq is
  // unknown at this point unless the number of items to slice is 0
  sliceSeq.size =
    sliceSize === 0 ? sliceSize : (collection.size && sliceSize) || undefined;

  if (!useKeys && isSeq(collection) && sliceSize >= 0) {
    sliceSeq.get = function (index, notSetValue) {
      index = wrapIndex(this, index);
      return index >= 0 && index < sliceSize
        ? collection.get(index + resolvedBegin, notSetValue)
        : notSetValue;
    };
  }

  sliceSeq.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    if (sliceSize === 0) {
      return 0;
    }
    if (reverse) {
      return this.cacheResult().__iterate(fn, reverse);
    }
    var skipped = 0;
    var isSkipping = true;
    var iterations = 0;
    collection.__iterate(function (v, k) {
      if (!(isSkipping && (isSkipping = skipped++ < resolvedBegin))) {
        iterations++;
        return (
          fn(v, useKeys ? k : iterations - 1, this$1$1) !== false &&
          iterations !== sliceSize
        );
      }
    });
    return iterations;
  };

  sliceSeq.__iteratorUncached = function (type, reverse) {
    if (sliceSize !== 0 && reverse) {
      return this.cacheResult().__iterator(type, reverse);
    }
    // Don't bother instantiating parent iterator if taking 0.
    if (sliceSize === 0) {
      return new Iterator(iteratorDone);
    }
    var iterator = collection.__iterator(type, reverse);
    var skipped = 0;
    var iterations = 0;
    return new Iterator(function () {
      while (skipped++ < resolvedBegin) {
        iterator.next();
      }
      if (++iterations > sliceSize) {
        return iteratorDone();
      }
      var step = iterator.next();
      if (useKeys || type === ITERATE_VALUES || step.done) {
        return step;
      }
      if (type === ITERATE_KEYS) {
        return iteratorValue(type, iterations - 1, undefined, step);
      }
      return iteratorValue(type, iterations - 1, step.value[1], step);
    });
  };

  return sliceSeq;
}

function takeWhileFactory(collection, predicate, context) {
  var takeSequence = makeSequence(collection);
  takeSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    if (reverse) {
      return this.cacheResult().__iterate(fn, reverse);
    }
    var iterations = 0;
    collection.__iterate(
      function (v, k, c) { return predicate.call(context, v, k, c) && ++iterations && fn(v, k, this$1$1); }
    );
    return iterations;
  };
  takeSequence.__iteratorUncached = function (type, reverse) {
    var this$1$1 = this;

    if (reverse) {
      return this.cacheResult().__iterator(type, reverse);
    }
    var iterator = collection.__iterator(ITERATE_ENTRIES, reverse);
    var iterating = true;
    return new Iterator(function () {
      if (!iterating) {
        return iteratorDone();
      }
      var step = iterator.next();
      if (step.done) {
        return step;
      }
      var entry = step.value;
      var k = entry[0];
      var v = entry[1];
      if (!predicate.call(context, v, k, this$1$1)) {
        iterating = false;
        return iteratorDone();
      }
      return type === ITERATE_ENTRIES ? step : iteratorValue(type, k, v, step);
    });
  };
  return takeSequence;
}

function skipWhileFactory(collection, predicate, context, useKeys) {
  var skipSequence = makeSequence(collection);
  skipSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    if (reverse) {
      return this.cacheResult().__iterate(fn, reverse);
    }
    var isSkipping = true;
    var iterations = 0;
    collection.__iterate(function (v, k, c) {
      if (!(isSkipping && (isSkipping = predicate.call(context, v, k, c)))) {
        iterations++;
        return fn(v, useKeys ? k : iterations - 1, this$1$1);
      }
    });
    return iterations;
  };
  skipSequence.__iteratorUncached = function (type, reverse) {
    var this$1$1 = this;

    if (reverse) {
      return this.cacheResult().__iterator(type, reverse);
    }
    var iterator = collection.__iterator(ITERATE_ENTRIES, reverse);
    var skipping = true;
    var iterations = 0;
    return new Iterator(function () {
      var step;
      var k;
      var v;
      do {
        step = iterator.next();
        if (step.done) {
          if (useKeys || type === ITERATE_VALUES) {
            return step;
          }
          if (type === ITERATE_KEYS) {
            return iteratorValue(type, iterations++, undefined, step);
          }
          return iteratorValue(type, iterations++, step.value[1], step);
        }
        var entry = step.value;
        k = entry[0];
        v = entry[1];
        skipping && (skipping = predicate.call(context, v, k, this$1$1));
      } while (skipping);
      return type === ITERATE_ENTRIES ? step : iteratorValue(type, k, v, step);
    });
  };
  return skipSequence;
}

function concatFactory(collection, values) {
  var isKeyedCollection = isKeyed(collection);
  var iters = [collection]
    .concat(values)
    .map(function (v) {
      if (!isCollection(v)) {
        v = isKeyedCollection
          ? keyedSeqFromValue(v)
          : indexedSeqFromValue(Array.isArray(v) ? v : [v]);
      } else if (isKeyedCollection) {
        v = KeyedCollection(v);
      }
      return v;
    })
    .filter(function (v) { return v.size !== 0; });

  if (iters.length === 0) {
    return collection;
  }

  if (iters.length === 1) {
    var singleton = iters[0];
    if (
      singleton === collection ||
      (isKeyedCollection && isKeyed(singleton)) ||
      (isIndexed(collection) && isIndexed(singleton))
    ) {
      return singleton;
    }
  }

  var concatSeq = new ArraySeq(iters);
  if (isKeyedCollection) {
    concatSeq = concatSeq.toKeyedSeq();
  } else if (!isIndexed(collection)) {
    concatSeq = concatSeq.toSetSeq();
  }
  concatSeq = concatSeq.flatten(true);
  concatSeq.size = iters.reduce(function (sum, seq) {
    if (sum !== undefined) {
      var size = seq.size;
      if (size !== undefined) {
        return sum + size;
      }
    }
  }, 0);
  return concatSeq;
}

function flattenFactory(collection, depth, useKeys) {
  var flatSequence = makeSequence(collection);
  flatSequence.__iterateUncached = function (fn, reverse) {
    if (reverse) {
      return this.cacheResult().__iterate(fn, reverse);
    }
    var iterations = 0;
    var stopped = false;
    function flatDeep(iter, currentDepth) {
      iter.__iterate(function (v, k) {
        if ((!depth || currentDepth < depth) && isCollection(v)) {
          flatDeep(v, currentDepth + 1);
        } else {
          iterations++;
          if (fn(v, useKeys ? k : iterations - 1, flatSequence) === false) {
            stopped = true;
          }
        }
        return !stopped;
      }, reverse);
    }
    flatDeep(collection, 0);
    return iterations;
  };
  flatSequence.__iteratorUncached = function (type, reverse) {
    if (reverse) {
      return this.cacheResult().__iterator(type, reverse);
    }
    var iterator = collection.__iterator(type, reverse);
    var stack = [];
    var iterations = 0;
    return new Iterator(function () {
      while (iterator) {
        var step = iterator.next();
        if (step.done !== false) {
          iterator = stack.pop();
          continue;
        }
        var v = step.value;
        if (type === ITERATE_ENTRIES) {
          v = v[1];
        }
        if ((!depth || stack.length < depth) && isCollection(v)) {
          stack.push(iterator);
          iterator = v.__iterator(type, reverse);
        } else {
          return useKeys ? step : iteratorValue(type, iterations++, v, step);
        }
      }
      return iteratorDone();
    });
  };
  return flatSequence;
}

function flatMapFactory(collection, mapper, context) {
  var coerce = collectionClass(collection);
  return collection
    .toSeq()
    .map(function (v, k) { return coerce(mapper.call(context, v, k, collection)); })
    .flatten(true);
}

function interposeFactory(collection, separator) {
  var interposedSequence = makeSequence(collection);
  interposedSequence.size = collection.size && collection.size * 2 - 1;
  interposedSequence.__iterateUncached = function (fn, reverse) {
    var this$1$1 = this;

    var iterations = 0;
    collection.__iterate(
      function (v) { return (!iterations || fn(separator, iterations++, this$1$1) !== false) &&
        fn(v, iterations++, this$1$1) !== false; },
      reverse
    );
    return iterations;
  };
  interposedSequence.__iteratorUncached = function (type, reverse) {
    var iterator = collection.__iterator(ITERATE_VALUES, reverse);
    var iterations = 0;
    var step;
    return new Iterator(function () {
      if (!step || iterations % 2) {
        step = iterator.next();
        if (step.done) {
          return step;
        }
      }
      return iterations % 2
        ? iteratorValue(type, iterations++, separator)
        : iteratorValue(type, iterations++, step.value, step);
    });
  };
  return interposedSequence;
}

function sortFactory(collection, comparator, mapper) {
  if (!comparator) {
    comparator = defaultComparator;
  }
  var isKeyedCollection = isKeyed(collection);
  var index = 0;
  var entries = collection
    .toSeq()
    .map(function (v, k) { return [k, v, index++, mapper ? mapper(v, k, collection) : v]; })
    .valueSeq()
    .toArray();
  entries
    .sort(function (a, b) { return comparator(a[3], b[3]) || a[2] - b[2]; })
    .forEach(
      isKeyedCollection
        ? function (v, i) {
            entries[i].length = 2;
          }
        : function (v, i) {
            entries[i] = v[1];
          }
    );
  return isKeyedCollection
    ? KeyedSeq(entries)
    : isIndexed(collection)
    ? IndexedSeq(entries)
    : SetSeq(entries);
}

function maxFactory(collection, comparator, mapper) {
  if (!comparator) {
    comparator = defaultComparator;
  }
  if (mapper) {
    var entry = collection
      .toSeq()
      .map(function (v, k) { return [v, mapper(v, k, collection)]; })
      .reduce(function (a, b) { return (maxCompare(comparator, a[1], b[1]) ? b : a); });
    return entry && entry[0];
  }
  return collection.reduce(function (a, b) { return (maxCompare(comparator, a, b) ? b : a); });
}

function maxCompare(comparator, a, b) {
  var comp = comparator(b, a);
  // b is considered the new max if the comparator declares them equal, but
  // they are not equal and b is in fact a nullish value.
  return (
    (comp === 0 && b !== a && (b === undefined || b === null || b !== b)) ||
    comp > 0
  );
}

function zipWithFactory(keyIter, zipper, iters, zipAll) {
  var zipSequence = makeSequence(keyIter);
  var sizes = new ArraySeq(iters).map(function (i) { return i.size; });
  zipSequence.size = zipAll ? sizes.max() : sizes.min();
  // Note: this a generic base implementation of __iterate in terms of
  // __iterator which may be more generically useful in the future.
  zipSequence.__iterate = function (fn, reverse) {
    /* generic:
    var iterator = this.__iterator(ITERATE_ENTRIES, reverse);
    var step;
    var iterations = 0;
    while (!(step = iterator.next()).done) {
      iterations++;
      if (fn(step.value[1], step.value[0], this) === false) {
        break;
      }
    }
    return iterations;
    */
    // indexed:
    var iterator = this.__iterator(ITERATE_VALUES, reverse);
    var step;
    var iterations = 0;
    while (!(step = iterator.next()).done) {
      if (fn(step.value, iterations++, this) === false) {
        break;
      }
    }
    return iterations;
  };
  zipSequence.__iteratorUncached = function (type, reverse) {
    var iterators = iters.map(
      function (i) { return ((i = Collection(i)), getIterator(reverse ? i.reverse() : i)); }
    );
    var iterations = 0;
    var isDone = false;
    return new Iterator(function () {
      var steps;
      if (!isDone) {
        steps = iterators.map(function (i) { return i.next(); });
        isDone = zipAll ? steps.every(function (s) { return s.done; }) : steps.some(function (s) { return s.done; });
      }
      if (isDone) {
        return iteratorDone();
      }
      return iteratorValue(
        type,
        iterations++,
        zipper.apply(
          null,
          steps.map(function (s) { return s.value; })
        )
      );
    });
  };
  return zipSequence;
}

// #pragma Helper Functions

function reify(iter, seq) {
  return iter === seq ? iter : isSeq(iter) ? seq : iter.constructor(seq);
}

function validateEntry(entry) {
  if (entry !== Object(entry)) {
    throw new TypeError('Expected [K, V] tuple: ' + entry);
  }
}

function collectionClass(collection) {
  return isKeyed(collection)
    ? KeyedCollection
    : isIndexed(collection)
    ? IndexedCollection
    : SetCollection;
}

function makeSequence(collection) {
  return Object.create(
    (isKeyed(collection)
      ? KeyedSeq
      : isIndexed(collection)
      ? IndexedSeq
      : SetSeq
    ).prototype
  );
}

function cacheResultThrough() {
  if (this._iter.cacheResult) {
    this._iter.cacheResult();
    this.size = this._iter.size;
    return this;
  }
  return Seq.prototype.cacheResult.call(this);
}

function defaultComparator(a, b) {
  if (a === undefined && b === undefined) {
    return 0;
  }

  if (a === undefined) {
    return 1;
  }

  if (b === undefined) {
    return -1;
  }

  return a > b ? 1 : a < b ? -1 : 0;
}

function arrCopy(arr, offset) {
  offset = offset || 0;
  var len = Math.max(0, arr.length - offset);
  var newArr = new Array(len);
  for (var ii = 0; ii < len; ii++) {
    newArr[ii] = arr[ii + offset];
  }
  return newArr;
}

function invariant(condition, error) {
  if (!condition) { throw new Error(error); }
}

function assertNotInfinite(size) {
  invariant(
    size !== Infinity,
    'Cannot perform this action with an infinite size.'
  );
}

function coerceKeyPath(keyPath) {
  if (isArrayLike(keyPath) && typeof keyPath !== 'string') {
    return keyPath;
  }
  if (isOrdered(keyPath)) {
    return keyPath.toArray();
  }
  throw new TypeError(
    'Invalid keyPath: expected Ordered Collection or Array: ' + keyPath
  );
}

var toString = Object.prototype.toString;

function isPlainObject(value) {
  // The base prototype's toString deals with Argument objects and native namespaces like Math
  if (
    !value ||
    typeof value !== 'object' ||
    toString.call(value) !== '[object Object]'
  ) {
    return false;
  }

  var proto = Object.getPrototypeOf(value);
  if (proto === null) {
    return true;
  }

  // Iteratively going up the prototype chain is needed for cross-realm environments (differing contexts, iframes, etc)
  var parentProto = proto;
  var nextProto = Object.getPrototypeOf(proto);
  while (nextProto !== null) {
    parentProto = nextProto;
    nextProto = Object.getPrototypeOf(parentProto);
  }
  return parentProto === proto;
}

/**
 * Returns true if the value is a potentially-persistent data structure, either
 * provided by Immutable.js or a plain Array or Object.
 */
function isDataStructure(value) {
  return (
    typeof value === 'object' &&
    (isImmutable(value) || Array.isArray(value) || isPlainObject(value))
  );
}

function quoteString(value) {
  try {
    return typeof value === 'string' ? JSON.stringify(value) : String(value);
  } catch (_ignoreError) {
    return JSON.stringify(value);
  }
}

function has(collection, key) {
  return isImmutable(collection)
    ? collection.has(key)
    : isDataStructure(collection) && hasOwnProperty.call(collection, key);
}

function get(collection, key, notSetValue) {
  return isImmutable(collection)
    ? collection.get(key, notSetValue)
    : !has(collection, key)
    ? notSetValue
    : typeof collection.get === 'function'
    ? collection.get(key)
    : collection[key];
}

function shallowCopy(from) {
  if (Array.isArray(from)) {
    return arrCopy(from);
  }
  var to = {};
  for (var key in from) {
    if (hasOwnProperty.call(from, key)) {
      to[key] = from[key];
    }
  }
  return to;
}

function remove(collection, key) {
  if (!isDataStructure(collection)) {
    throw new TypeError(
      'Cannot update non-data-structure value: ' + collection
    );
  }
  if (isImmutable(collection)) {
    if (!collection.remove) {
      throw new TypeError(
        'Cannot update immutable value without .remove() method: ' + collection
      );
    }
    return collection.remove(key);
  }
  if (!hasOwnProperty.call(collection, key)) {
    return collection;
  }
  var collectionCopy = shallowCopy(collection);
  if (Array.isArray(collectionCopy)) {
    collectionCopy.splice(key, 1);
  } else {
    delete collectionCopy[key];
  }
  return collectionCopy;
}

function set(collection, key, value) {
  if (!isDataStructure(collection)) {
    throw new TypeError(
      'Cannot update non-data-structure value: ' + collection
    );
  }
  if (isImmutable(collection)) {
    if (!collection.set) {
      throw new TypeError(
        'Cannot update immutable value without .set() method: ' + collection
      );
    }
    return collection.set(key, value);
  }
  if (hasOwnProperty.call(collection, key) && value === collection[key]) {
    return collection;
  }
  var collectionCopy = shallowCopy(collection);
  collectionCopy[key] = value;
  return collectionCopy;
}

function updateIn$1(collection, keyPath, notSetValue, updater) {
  if (!updater) {
    updater = notSetValue;
    notSetValue = undefined;
  }
  var updatedValue = updateInDeeply(
    isImmutable(collection),
    collection,
    coerceKeyPath(keyPath),
    0,
    notSetValue,
    updater
  );
  return updatedValue === NOT_SET ? notSetValue : updatedValue;
}

function updateInDeeply(
  inImmutable,
  existing,
  keyPath,
  i,
  notSetValue,
  updater
) {
  var wasNotSet = existing === NOT_SET;
  if (i === keyPath.length) {
    var existingValue = wasNotSet ? notSetValue : existing;
    var newValue = updater(existingValue);
    return newValue === existingValue ? existing : newValue;
  }
  if (!wasNotSet && !isDataStructure(existing)) {
    throw new TypeError(
      'Cannot update within non-data-structure value in path [' +
        keyPath.slice(0, i).map(quoteString) +
        ']: ' +
        existing
    );
  }
  var key = keyPath[i];
  var nextExisting = wasNotSet ? NOT_SET : get(existing, key, NOT_SET);
  var nextUpdated = updateInDeeply(
    nextExisting === NOT_SET ? inImmutable : isImmutable(nextExisting),
    nextExisting,
    keyPath,
    i + 1,
    notSetValue,
    updater
  );
  return nextUpdated === nextExisting
    ? existing
    : nextUpdated === NOT_SET
    ? remove(existing, key)
    : set(
        wasNotSet ? (inImmutable ? emptyMap() : {}) : existing,
        key,
        nextUpdated
      );
}

function setIn$1(collection, keyPath, value) {
  return updateIn$1(collection, keyPath, NOT_SET, function () { return value; });
}

function setIn(keyPath, v) {
  return setIn$1(this, keyPath, v);
}

function removeIn(collection, keyPath) {
  return updateIn$1(collection, keyPath, function () { return NOT_SET; });
}

function deleteIn(keyPath) {
  return removeIn(this, keyPath);
}

function update$1(collection, key, notSetValue, updater) {
  return updateIn$1(collection, [key], notSetValue, updater);
}

function update(key, notSetValue, updater) {
  return arguments.length === 1
    ? key(this)
    : update$1(this, key, notSetValue, updater);
}

function updateIn(keyPath, notSetValue, updater) {
  return updateIn$1(this, keyPath, notSetValue, updater);
}

function merge$1() {
  var iters = [], len = arguments.length;
  while ( len-- ) iters[ len ] = arguments[ len ];

  return mergeIntoKeyedWith(this, iters);
}

function mergeWith$1(merger) {
  var iters = [], len = arguments.length - 1;
  while ( len-- > 0 ) iters[ len ] = arguments[ len + 1 ];

  if (typeof merger !== 'function') {
    throw new TypeError('Invalid merger function: ' + merger);
  }
  return mergeIntoKeyedWith(this, iters, merger);
}

function mergeIntoKeyedWith(collection, collections, merger) {
  var iters = [];
  for (var ii = 0; ii < collections.length; ii++) {
    var collection$1 = KeyedCollection(collections[ii]);
    if (collection$1.size !== 0) {
      iters.push(collection$1);
    }
  }
  if (iters.length === 0) {
    return collection;
  }
  if (
    collection.toSeq().size === 0 &&
    !collection.__ownerID &&
    iters.length === 1
  ) {
    return collection.constructor(iters[0]);
  }
  return collection.withMutations(function (collection) {
    var mergeIntoCollection = merger
      ? function (value, key) {
          update$1(collection, key, NOT_SET, function (oldVal) { return oldVal === NOT_SET ? value : merger(oldVal, value, key); }
          );
        }
      : function (value, key) {
          collection.set(key, value);
        };
    for (var ii = 0; ii < iters.length; ii++) {
      iters[ii].forEach(mergeIntoCollection);
    }
  });
}

function merge(collection) {
  var sources = [], len = arguments.length - 1;
  while ( len-- > 0 ) sources[ len ] = arguments[ len + 1 ];

  return mergeWithSources(collection, sources);
}

function mergeWith(merger, collection) {
  var sources = [], len = arguments.length - 2;
  while ( len-- > 0 ) sources[ len ] = arguments[ len + 2 ];

  return mergeWithSources(collection, sources, merger);
}

function mergeDeep$1(collection) {
  var sources = [], len = arguments.length - 1;
  while ( len-- > 0 ) sources[ len ] = arguments[ len + 1 ];

  return mergeDeepWithSources(collection, sources);
}

function mergeDeepWith$1(merger, collection) {
  var sources = [], len = arguments.length - 2;
  while ( len-- > 0 ) sources[ len ] = arguments[ len + 2 ];

  return mergeDeepWithSources(collection, sources, merger);
}

function mergeDeepWithSources(collection, sources, merger) {
  return mergeWithSources(collection, sources, deepMergerWith(merger));
}

function mergeWithSources(collection, sources, merger) {
  if (!isDataStructure(collection)) {
    throw new TypeError(
      'Cannot merge into non-data-structure value: ' + collection
    );
  }
  if (isImmutable(collection)) {
    return typeof merger === 'function' && collection.mergeWith
      ? collection.mergeWith.apply(collection, [ merger ].concat( sources ))
      : collection.merge
      ? collection.merge.apply(collection, sources)
      : collection.concat.apply(collection, sources);
  }
  var isArray = Array.isArray(collection);
  var merged = collection;
  var Collection = isArray ? IndexedCollection : KeyedCollection;
  var mergeItem = isArray
    ? function (value) {
        // Copy on write
        if (merged === collection) {
          merged = shallowCopy(merged);
        }
        merged.push(value);
      }
    : function (value, key) {
        var hasVal = hasOwnProperty.call(merged, key);
        var nextVal =
          hasVal && merger ? merger(merged[key], value, key) : value;
        if (!hasVal || nextVal !== merged[key]) {
          // Copy on write
          if (merged === collection) {
            merged = shallowCopy(merged);
          }
          merged[key] = nextVal;
        }
      };
  for (var i = 0; i < sources.length; i++) {
    Collection(sources[i]).forEach(mergeItem);
  }
  return merged;
}

function deepMergerWith(merger) {
  function deepMerger(oldValue, newValue, key) {
    return isDataStructure(oldValue) &&
      isDataStructure(newValue) &&
      areMergeable(oldValue, newValue)
      ? mergeWithSources(oldValue, [newValue], deepMerger)
      : merger
      ? merger(oldValue, newValue, key)
      : newValue;
  }
  return deepMerger;
}

/**
 * It's unclear what the desired behavior is for merging two collections that
 * fall into separate categories between keyed, indexed, or set-like, so we only
 * consider them mergeable if they fall into the same category.
 */
function areMergeable(oldDataStructure, newDataStructure) {
  var oldSeq = Seq(oldDataStructure);
  var newSeq = Seq(newDataStructure);
  // This logic assumes that a sequence can only fall into one of the three
  // categories mentioned above (since there's no `isSetLike()` method).
  return (
    isIndexed(oldSeq) === isIndexed(newSeq) &&
    isKeyed(oldSeq) === isKeyed(newSeq)
  );
}

function mergeDeep() {
  var iters = [], len = arguments.length;
  while ( len-- ) iters[ len ] = arguments[ len ];

  return mergeDeepWithSources(this, iters);
}

function mergeDeepWith(merger) {
  var iters = [], len = arguments.length - 1;
  while ( len-- > 0 ) iters[ len ] = arguments[ len + 1 ];

  return mergeDeepWithSources(this, iters, merger);
}

function mergeIn(keyPath) {
  var iters = [], len = arguments.length - 1;
  while ( len-- > 0 ) iters[ len ] = arguments[ len + 1 ];

  return updateIn$1(this, keyPath, emptyMap(), function (m) { return mergeWithSources(m, iters); });
}

function mergeDeepIn(keyPath) {
  var iters = [], len = arguments.length - 1;
  while ( len-- > 0 ) iters[ len ] = arguments[ len + 1 ];

  return updateIn$1(this, keyPath, emptyMap(), function (m) { return mergeDeepWithSources(m, iters); }
  );
}

function withMutations(fn) {
  var mutable = this.asMutable();
  fn(mutable);
  return mutable.wasAltered() ? mutable.__ensureOwner(this.__ownerID) : this;
}

function asMutable() {
  return this.__ownerID ? this : this.__ensureOwner(new OwnerID());
}

function asImmutable() {
  return this.__ensureOwner();
}

function wasAltered() {
  return this.__altered;
}

var Map = /*@__PURE__*/(function (KeyedCollection) {
  function Map(value) {
    return value === undefined || value === null
      ? emptyMap()
      : isMap(value) && !isOrdered(value)
      ? value
      : emptyMap().withMutations(function (map) {
          var iter = KeyedCollection(value);
          assertNotInfinite(iter.size);
          iter.forEach(function (v, k) { return map.set(k, v); });
        });
  }

  if ( KeyedCollection ) Map.__proto__ = KeyedCollection;
  Map.prototype = Object.create( KeyedCollection && KeyedCollection.prototype );
  Map.prototype.constructor = Map;

  Map.of = function of () {
    var keyValues = [], len = arguments.length;
    while ( len-- ) keyValues[ len ] = arguments[ len ];

    return emptyMap().withMutations(function (map) {
      for (var i = 0; i < keyValues.length; i += 2) {
        if (i + 1 >= keyValues.length) {
          throw new Error('Missing value for key: ' + keyValues[i]);
        }
        map.set(keyValues[i], keyValues[i + 1]);
      }
    });
  };

  Map.prototype.toString = function toString () {
    return this.__toString('Map {', '}');
  };

  // @pragma Access

  Map.prototype.get = function get (k, notSetValue) {
    return this._root
      ? this._root.get(0, undefined, k, notSetValue)
      : notSetValue;
  };

  // @pragma Modification

  Map.prototype.set = function set (k, v) {
    return updateMap(this, k, v);
  };

  Map.prototype.remove = function remove (k) {
    return updateMap(this, k, NOT_SET);
  };

  Map.prototype.deleteAll = function deleteAll (keys) {
    var collection = Collection(keys);

    if (collection.size === 0) {
      return this;
    }

    return this.withMutations(function (map) {
      collection.forEach(function (key) { return map.remove(key); });
    });
  };

  Map.prototype.clear = function clear () {
    if (this.size === 0) {
      return this;
    }
    if (this.__ownerID) {
      this.size = 0;
      this._root = null;
      this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return emptyMap();
  };

  // @pragma Composition

  Map.prototype.sort = function sort (comparator) {
    // Late binding
    return OrderedMap(sortFactory(this, comparator));
  };

  Map.prototype.sortBy = function sortBy (mapper, comparator) {
    // Late binding
    return OrderedMap(sortFactory(this, comparator, mapper));
  };

  Map.prototype.map = function map (mapper, context) {
    var this$1$1 = this;

    return this.withMutations(function (map) {
      map.forEach(function (value, key) {
        map.set(key, mapper.call(context, value, key, this$1$1));
      });
    });
  };

  // @pragma Mutability

  Map.prototype.__iterator = function __iterator (type, reverse) {
    return new MapIterator(this, type, reverse);
  };

  Map.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    var iterations = 0;
    this._root &&
      this._root.iterate(function (entry) {
        iterations++;
        return fn(entry[1], entry[0], this$1$1);
      }, reverse);
    return iterations;
  };

  Map.prototype.__ensureOwner = function __ensureOwner (ownerID) {
    if (ownerID === this.__ownerID) {
      return this;
    }
    if (!ownerID) {
      if (this.size === 0) {
        return emptyMap();
      }
      this.__ownerID = ownerID;
      this.__altered = false;
      return this;
    }
    return makeMap(this.size, this._root, ownerID, this.__hash);
  };

  return Map;
}(KeyedCollection));

Map.isMap = isMap;

var MapPrototype = Map.prototype;
MapPrototype[IS_MAP_SYMBOL] = true;
MapPrototype[DELETE] = MapPrototype.remove;
MapPrototype.removeAll = MapPrototype.deleteAll;
MapPrototype.setIn = setIn;
MapPrototype.removeIn = MapPrototype.deleteIn = deleteIn;
MapPrototype.update = update;
MapPrototype.updateIn = updateIn;
MapPrototype.merge = MapPrototype.concat = merge$1;
MapPrototype.mergeWith = mergeWith$1;
MapPrototype.mergeDeep = mergeDeep;
MapPrototype.mergeDeepWith = mergeDeepWith;
MapPrototype.mergeIn = mergeIn;
MapPrototype.mergeDeepIn = mergeDeepIn;
MapPrototype.withMutations = withMutations;
MapPrototype.wasAltered = wasAltered;
MapPrototype.asImmutable = asImmutable;
MapPrototype['@@transducer/init'] = MapPrototype.asMutable = asMutable;
MapPrototype['@@transducer/step'] = function (result, arr) {
  return result.set(arr[0], arr[1]);
};
MapPrototype['@@transducer/result'] = function (obj) {
  return obj.asImmutable();
};

// #pragma Trie Nodes

var ArrayMapNode = function ArrayMapNode(ownerID, entries) {
  this.ownerID = ownerID;
  this.entries = entries;
};

ArrayMapNode.prototype.get = function get (shift, keyHash, key, notSetValue) {
  var entries = this.entries;
  for (var ii = 0, len = entries.length; ii < len; ii++) {
    if (is(key, entries[ii][0])) {
      return entries[ii][1];
    }
  }
  return notSetValue;
};

ArrayMapNode.prototype.update = function update (ownerID, shift, keyHash, key, value, didChangeSize, didAlter) {
  var removed = value === NOT_SET;

  var entries = this.entries;
  var idx = 0;
  var len = entries.length;
  for (; idx < len; idx++) {
    if (is(key, entries[idx][0])) {
      break;
    }
  }
  var exists = idx < len;

  if (exists ? entries[idx][1] === value : removed) {
    return this;
  }

  SetRef(didAlter);
  (removed || !exists) && SetRef(didChangeSize);

  if (removed && entries.length === 1) {
    return; // undefined
  }

  if (!exists && !removed && entries.length >= MAX_ARRAY_MAP_SIZE) {
    return createNodes(ownerID, entries, key, value);
  }

  var isEditable = ownerID && ownerID === this.ownerID;
  var newEntries = isEditable ? entries : arrCopy(entries);

  if (exists) {
    if (removed) {
      idx === len - 1
        ? newEntries.pop()
        : (newEntries[idx] = newEntries.pop());
    } else {
      newEntries[idx] = [key, value];
    }
  } else {
    newEntries.push([key, value]);
  }

  if (isEditable) {
    this.entries = newEntries;
    return this;
  }

  return new ArrayMapNode(ownerID, newEntries);
};

var BitmapIndexedNode = function BitmapIndexedNode(ownerID, bitmap, nodes) {
  this.ownerID = ownerID;
  this.bitmap = bitmap;
  this.nodes = nodes;
};

BitmapIndexedNode.prototype.get = function get (shift, keyHash, key, notSetValue) {
  if (keyHash === undefined) {
    keyHash = hash(key);
  }
  var bit = 1 << ((shift === 0 ? keyHash : keyHash >>> shift) & MASK);
  var bitmap = this.bitmap;
  return (bitmap & bit) === 0
    ? notSetValue
    : this.nodes[popCount(bitmap & (bit - 1))].get(
        shift + SHIFT,
        keyHash,
        key,
        notSetValue
      );
};

BitmapIndexedNode.prototype.update = function update (ownerID, shift, keyHash, key, value, didChangeSize, didAlter) {
  if (keyHash === undefined) {
    keyHash = hash(key);
  }
  var keyHashFrag = (shift === 0 ? keyHash : keyHash >>> shift) & MASK;
  var bit = 1 << keyHashFrag;
  var bitmap = this.bitmap;
  var exists = (bitmap & bit) !== 0;

  if (!exists && value === NOT_SET) {
    return this;
  }

  var idx = popCount(bitmap & (bit - 1));
  var nodes = this.nodes;
  var node = exists ? nodes[idx] : undefined;
  var newNode = updateNode(
    node,
    ownerID,
    shift + SHIFT,
    keyHash,
    key,
    value,
    didChangeSize,
    didAlter
  );

  if (newNode === node) {
    return this;
  }

  if (!exists && newNode && nodes.length >= MAX_BITMAP_INDEXED_SIZE) {
    return expandNodes(ownerID, nodes, bitmap, keyHashFrag, newNode);
  }

  if (
    exists &&
    !newNode &&
    nodes.length === 2 &&
    isLeafNode(nodes[idx ^ 1])
  ) {
    return nodes[idx ^ 1];
  }

  if (exists && newNode && nodes.length === 1 && isLeafNode(newNode)) {
    return newNode;
  }

  var isEditable = ownerID && ownerID === this.ownerID;
  var newBitmap = exists ? (newNode ? bitmap : bitmap ^ bit) : bitmap | bit;
  var newNodes = exists
    ? newNode
      ? setAt(nodes, idx, newNode, isEditable)
      : spliceOut(nodes, idx, isEditable)
    : spliceIn(nodes, idx, newNode, isEditable);

  if (isEditable) {
    this.bitmap = newBitmap;
    this.nodes = newNodes;
    return this;
  }

  return new BitmapIndexedNode(ownerID, newBitmap, newNodes);
};

var HashArrayMapNode = function HashArrayMapNode(ownerID, count, nodes) {
  this.ownerID = ownerID;
  this.count = count;
  this.nodes = nodes;
};

HashArrayMapNode.prototype.get = function get (shift, keyHash, key, notSetValue) {
  if (keyHash === undefined) {
    keyHash = hash(key);
  }
  var idx = (shift === 0 ? keyHash : keyHash >>> shift) & MASK;
  var node = this.nodes[idx];
  return node
    ? node.get(shift + SHIFT, keyHash, key, notSetValue)
    : notSetValue;
};

HashArrayMapNode.prototype.update = function update (ownerID, shift, keyHash, key, value, didChangeSize, didAlter) {
  if (keyHash === undefined) {
    keyHash = hash(key);
  }
  var idx = (shift === 0 ? keyHash : keyHash >>> shift) & MASK;
  var removed = value === NOT_SET;
  var nodes = this.nodes;
  var node = nodes[idx];

  if (removed && !node) {
    return this;
  }

  var newNode = updateNode(
    node,
    ownerID,
    shift + SHIFT,
    keyHash,
    key,
    value,
    didChangeSize,
    didAlter
  );
  if (newNode === node) {
    return this;
  }

  var newCount = this.count;
  if (!node) {
    newCount++;
  } else if (!newNode) {
    newCount--;
    if (newCount < MIN_HASH_ARRAY_MAP_SIZE) {
      return packNodes(ownerID, nodes, newCount, idx);
    }
  }

  var isEditable = ownerID && ownerID === this.ownerID;
  var newNodes = setAt(nodes, idx, newNode, isEditable);

  if (isEditable) {
    this.count = newCount;
    this.nodes = newNodes;
    return this;
  }

  return new HashArrayMapNode(ownerID, newCount, newNodes);
};

var HashCollisionNode = function HashCollisionNode(ownerID, keyHash, entries) {
  this.ownerID = ownerID;
  this.keyHash = keyHash;
  this.entries = entries;
};

HashCollisionNode.prototype.get = function get (shift, keyHash, key, notSetValue) {
  var entries = this.entries;
  for (var ii = 0, len = entries.length; ii < len; ii++) {
    if (is(key, entries[ii][0])) {
      return entries[ii][1];
    }
  }
  return notSetValue;
};

HashCollisionNode.prototype.update = function update (ownerID, shift, keyHash, key, value, didChangeSize, didAlter) {
  if (keyHash === undefined) {
    keyHash = hash(key);
  }

  var removed = value === NOT_SET;

  if (keyHash !== this.keyHash) {
    if (removed) {
      return this;
    }
    SetRef(didAlter);
    SetRef(didChangeSize);
    return mergeIntoNode(this, ownerID, shift, keyHash, [key, value]);
  }

  var entries = this.entries;
  var idx = 0;
  var len = entries.length;
  for (; idx < len; idx++) {
    if (is(key, entries[idx][0])) {
      break;
    }
  }
  var exists = idx < len;

  if (exists ? entries[idx][1] === value : removed) {
    return this;
  }

  SetRef(didAlter);
  (removed || !exists) && SetRef(didChangeSize);

  if (removed && len === 2) {
    return new ValueNode(ownerID, this.keyHash, entries[idx ^ 1]);
  }

  var isEditable = ownerID && ownerID === this.ownerID;
  var newEntries = isEditable ? entries : arrCopy(entries);

  if (exists) {
    if (removed) {
      idx === len - 1
        ? newEntries.pop()
        : (newEntries[idx] = newEntries.pop());
    } else {
      newEntries[idx] = [key, value];
    }
  } else {
    newEntries.push([key, value]);
  }

  if (isEditable) {
    this.entries = newEntries;
    return this;
  }

  return new HashCollisionNode(ownerID, this.keyHash, newEntries);
};

var ValueNode = function ValueNode(ownerID, keyHash, entry) {
  this.ownerID = ownerID;
  this.keyHash = keyHash;
  this.entry = entry;
};

ValueNode.prototype.get = function get (shift, keyHash, key, notSetValue) {
  return is(key, this.entry[0]) ? this.entry[1] : notSetValue;
};

ValueNode.prototype.update = function update (ownerID, shift, keyHash, key, value, didChangeSize, didAlter) {
  var removed = value === NOT_SET;
  var keyMatch = is(key, this.entry[0]);
  if (keyMatch ? value === this.entry[1] : removed) {
    return this;
  }

  SetRef(didAlter);

  if (removed) {
    SetRef(didChangeSize);
    return; // undefined
  }

  if (keyMatch) {
    if (ownerID && ownerID === this.ownerID) {
      this.entry[1] = value;
      return this;
    }
    return new ValueNode(ownerID, this.keyHash, [key, value]);
  }

  SetRef(didChangeSize);
  return mergeIntoNode(this, ownerID, shift, hash(key), [key, value]);
};

// #pragma Iterators

ArrayMapNode.prototype.iterate = HashCollisionNode.prototype.iterate =
  function (fn, reverse) {
    var entries = this.entries;
    for (var ii = 0, maxIndex = entries.length - 1; ii <= maxIndex; ii++) {
      if (fn(entries[reverse ? maxIndex - ii : ii]) === false) {
        return false;
      }
    }
  };

BitmapIndexedNode.prototype.iterate = HashArrayMapNode.prototype.iterate =
  function (fn, reverse) {
    var nodes = this.nodes;
    for (var ii = 0, maxIndex = nodes.length - 1; ii <= maxIndex; ii++) {
      var node = nodes[reverse ? maxIndex - ii : ii];
      if (node && node.iterate(fn, reverse) === false) {
        return false;
      }
    }
  };

// eslint-disable-next-line no-unused-vars
ValueNode.prototype.iterate = function (fn, reverse) {
  return fn(this.entry);
};

var MapIterator = /*@__PURE__*/(function (Iterator) {
  function MapIterator(map, type, reverse) {
    this._type = type;
    this._reverse = reverse;
    this._stack = map._root && mapIteratorFrame(map._root);
  }

  if ( Iterator ) MapIterator.__proto__ = Iterator;
  MapIterator.prototype = Object.create( Iterator && Iterator.prototype );
  MapIterator.prototype.constructor = MapIterator;

  MapIterator.prototype.next = function next () {
    var type = this._type;
    var stack = this._stack;
    while (stack) {
      var node = stack.node;
      var index = stack.index++;
      var maxIndex = (void 0);
      if (node.entry) {
        if (index === 0) {
          return mapIteratorValue(type, node.entry);
        }
      } else if (node.entries) {
        maxIndex = node.entries.length - 1;
        if (index <= maxIndex) {
          return mapIteratorValue(
            type,
            node.entries[this._reverse ? maxIndex - index : index]
          );
        }
      } else {
        maxIndex = node.nodes.length - 1;
        if (index <= maxIndex) {
          var subNode = node.nodes[this._reverse ? maxIndex - index : index];
          if (subNode) {
            if (subNode.entry) {
              return mapIteratorValue(type, subNode.entry);
            }
            stack = this._stack = mapIteratorFrame(subNode, stack);
          }
          continue;
        }
      }
      stack = this._stack = this._stack.__prev;
    }
    return iteratorDone();
  };

  return MapIterator;
}(Iterator));

function mapIteratorValue(type, entry) {
  return iteratorValue(type, entry[0], entry[1]);
}

function mapIteratorFrame(node, prev) {
  return {
    node: node,
    index: 0,
    __prev: prev,
  };
}

function makeMap(size, root, ownerID, hash) {
  var map = Object.create(MapPrototype);
  map.size = size;
  map._root = root;
  map.__ownerID = ownerID;
  map.__hash = hash;
  map.__altered = false;
  return map;
}

var EMPTY_MAP;
function emptyMap() {
  return EMPTY_MAP || (EMPTY_MAP = makeMap(0));
}

function updateMap(map, k, v) {
  var newRoot;
  var newSize;
  if (!map._root) {
    if (v === NOT_SET) {
      return map;
    }
    newSize = 1;
    newRoot = new ArrayMapNode(map.__ownerID, [[k, v]]);
  } else {
    var didChangeSize = MakeRef();
    var didAlter = MakeRef();
    newRoot = updateNode(
      map._root,
      map.__ownerID,
      0,
      undefined,
      k,
      v,
      didChangeSize,
      didAlter
    );
    if (!didAlter.value) {
      return map;
    }
    newSize = map.size + (didChangeSize.value ? (v === NOT_SET ? -1 : 1) : 0);
  }
  if (map.__ownerID) {
    map.size = newSize;
    map._root = newRoot;
    map.__hash = undefined;
    map.__altered = true;
    return map;
  }
  return newRoot ? makeMap(newSize, newRoot) : emptyMap();
}

function updateNode(
  node,
  ownerID,
  shift,
  keyHash,
  key,
  value,
  didChangeSize,
  didAlter
) {
  if (!node) {
    if (value === NOT_SET) {
      return node;
    }
    SetRef(didAlter);
    SetRef(didChangeSize);
    return new ValueNode(ownerID, keyHash, [key, value]);
  }
  return node.update(
    ownerID,
    shift,
    keyHash,
    key,
    value,
    didChangeSize,
    didAlter
  );
}

function isLeafNode(node) {
  return (
    node.constructor === ValueNode || node.constructor === HashCollisionNode
  );
}

function mergeIntoNode(node, ownerID, shift, keyHash, entry) {
  if (node.keyHash === keyHash) {
    return new HashCollisionNode(ownerID, keyHash, [node.entry, entry]);
  }

  var idx1 = (shift === 0 ? node.keyHash : node.keyHash >>> shift) & MASK;
  var idx2 = (shift === 0 ? keyHash : keyHash >>> shift) & MASK;

  var newNode;
  var nodes =
    idx1 === idx2
      ? [mergeIntoNode(node, ownerID, shift + SHIFT, keyHash, entry)]
      : ((newNode = new ValueNode(ownerID, keyHash, entry)),
        idx1 < idx2 ? [node, newNode] : [newNode, node]);

  return new BitmapIndexedNode(ownerID, (1 << idx1) | (1 << idx2), nodes);
}

function createNodes(ownerID, entries, key, value) {
  if (!ownerID) {
    ownerID = new OwnerID();
  }
  var node = new ValueNode(ownerID, hash(key), [key, value]);
  for (var ii = 0; ii < entries.length; ii++) {
    var entry = entries[ii];
    node = node.update(ownerID, 0, undefined, entry[0], entry[1]);
  }
  return node;
}

function packNodes(ownerID, nodes, count, excluding) {
  var bitmap = 0;
  var packedII = 0;
  var packedNodes = new Array(count);
  for (var ii = 0, bit = 1, len = nodes.length; ii < len; ii++, bit <<= 1) {
    var node = nodes[ii];
    if (node !== undefined && ii !== excluding) {
      bitmap |= bit;
      packedNodes[packedII++] = node;
    }
  }
  return new BitmapIndexedNode(ownerID, bitmap, packedNodes);
}

function expandNodes(ownerID, nodes, bitmap, including, node) {
  var count = 0;
  var expandedNodes = new Array(SIZE);
  for (var ii = 0; bitmap !== 0; ii++, bitmap >>>= 1) {
    expandedNodes[ii] = bitmap & 1 ? nodes[count++] : undefined;
  }
  expandedNodes[including] = node;
  return new HashArrayMapNode(ownerID, count + 1, expandedNodes);
}

function popCount(x) {
  x -= (x >> 1) & 0x55555555;
  x = (x & 0x33333333) + ((x >> 2) & 0x33333333);
  x = (x + (x >> 4)) & 0x0f0f0f0f;
  x += x >> 8;
  x += x >> 16;
  return x & 0x7f;
}

function setAt(array, idx, val, canEdit) {
  var newArray = canEdit ? array : arrCopy(array);
  newArray[idx] = val;
  return newArray;
}

function spliceIn(array, idx, val, canEdit) {
  var newLen = array.length + 1;
  if (canEdit && idx + 1 === newLen) {
    array[idx] = val;
    return array;
  }
  var newArray = new Array(newLen);
  var after = 0;
  for (var ii = 0; ii < newLen; ii++) {
    if (ii === idx) {
      newArray[ii] = val;
      after = -1;
    } else {
      newArray[ii] = array[ii + after];
    }
  }
  return newArray;
}

function spliceOut(array, idx, canEdit) {
  var newLen = array.length - 1;
  if (canEdit && idx === newLen) {
    array.pop();
    return array;
  }
  var newArray = new Array(newLen);
  var after = 0;
  for (var ii = 0; ii < newLen; ii++) {
    if (ii === idx) {
      after = 1;
    }
    newArray[ii] = array[ii + after];
  }
  return newArray;
}

var MAX_ARRAY_MAP_SIZE = SIZE / 4;
var MAX_BITMAP_INDEXED_SIZE = SIZE / 2;
var MIN_HASH_ARRAY_MAP_SIZE = SIZE / 4;

var IS_LIST_SYMBOL = '@@__IMMUTABLE_LIST__@@';

function isList(maybeList) {
  return Boolean(maybeList && maybeList[IS_LIST_SYMBOL]);
}

var List = /*@__PURE__*/(function (IndexedCollection) {
  function List(value) {
    var empty = emptyList();
    if (value === undefined || value === null) {
      return empty;
    }
    if (isList(value)) {
      return value;
    }
    var iter = IndexedCollection(value);
    var size = iter.size;
    if (size === 0) {
      return empty;
    }
    assertNotInfinite(size);
    if (size > 0 && size < SIZE) {
      return makeList(0, size, SHIFT, null, new VNode(iter.toArray()));
    }
    return empty.withMutations(function (list) {
      list.setSize(size);
      iter.forEach(function (v, i) { return list.set(i, v); });
    });
  }

  if ( IndexedCollection ) List.__proto__ = IndexedCollection;
  List.prototype = Object.create( IndexedCollection && IndexedCollection.prototype );
  List.prototype.constructor = List;

  List.of = function of (/*...values*/) {
    return this(arguments);
  };

  List.prototype.toString = function toString () {
    return this.__toString('List [', ']');
  };

  // @pragma Access

  List.prototype.get = function get (index, notSetValue) {
    index = wrapIndex(this, index);
    if (index >= 0 && index < this.size) {
      index += this._origin;
      var node = listNodeFor(this, index);
      return node && node.array[index & MASK];
    }
    return notSetValue;
  };

  // @pragma Modification

  List.prototype.set = function set (index, value) {
    return updateList(this, index, value);
  };

  List.prototype.remove = function remove (index) {
    return !this.has(index)
      ? this
      : index === 0
      ? this.shift()
      : index === this.size - 1
      ? this.pop()
      : this.splice(index, 1);
  };

  List.prototype.insert = function insert (index, value) {
    return this.splice(index, 0, value);
  };

  List.prototype.clear = function clear () {
    if (this.size === 0) {
      return this;
    }
    if (this.__ownerID) {
      this.size = this._origin = this._capacity = 0;
      this._level = SHIFT;
      this._root = this._tail = this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return emptyList();
  };

  List.prototype.push = function push (/*...values*/) {
    var values = arguments;
    var oldSize = this.size;
    return this.withMutations(function (list) {
      setListBounds(list, 0, oldSize + values.length);
      for (var ii = 0; ii < values.length; ii++) {
        list.set(oldSize + ii, values[ii]);
      }
    });
  };

  List.prototype.pop = function pop () {
    return setListBounds(this, 0, -1);
  };

  List.prototype.unshift = function unshift (/*...values*/) {
    var values = arguments;
    return this.withMutations(function (list) {
      setListBounds(list, -values.length);
      for (var ii = 0; ii < values.length; ii++) {
        list.set(ii, values[ii]);
      }
    });
  };

  List.prototype.shift = function shift () {
    return setListBounds(this, 1);
  };

  // @pragma Composition

  List.prototype.concat = function concat (/*...collections*/) {
    var arguments$1 = arguments;

    var seqs = [];
    for (var i = 0; i < arguments.length; i++) {
      var argument = arguments$1[i];
      var seq = IndexedCollection(
        typeof argument !== 'string' && hasIterator(argument)
          ? argument
          : [argument]
      );
      if (seq.size !== 0) {
        seqs.push(seq);
      }
    }
    if (seqs.length === 0) {
      return this;
    }
    if (this.size === 0 && !this.__ownerID && seqs.length === 1) {
      return this.constructor(seqs[0]);
    }
    return this.withMutations(function (list) {
      seqs.forEach(function (seq) { return seq.forEach(function (value) { return list.push(value); }); });
    });
  };

  List.prototype.setSize = function setSize (size) {
    return setListBounds(this, 0, size);
  };

  List.prototype.map = function map (mapper, context) {
    var this$1$1 = this;

    return this.withMutations(function (list) {
      for (var i = 0; i < this$1$1.size; i++) {
        list.set(i, mapper.call(context, list.get(i), i, this$1$1));
      }
    });
  };

  // @pragma Iteration

  List.prototype.slice = function slice (begin, end) {
    var size = this.size;
    if (wholeSlice(begin, end, size)) {
      return this;
    }
    return setListBounds(
      this,
      resolveBegin(begin, size),
      resolveEnd(end, size)
    );
  };

  List.prototype.__iterator = function __iterator (type, reverse) {
    var index = reverse ? this.size : 0;
    var values = iterateList(this, reverse);
    return new Iterator(function () {
      var value = values();
      return value === DONE
        ? iteratorDone()
        : iteratorValue(type, reverse ? --index : index++, value);
    });
  };

  List.prototype.__iterate = function __iterate (fn, reverse) {
    var index = reverse ? this.size : 0;
    var values = iterateList(this, reverse);
    var value;
    while ((value = values()) !== DONE) {
      if (fn(value, reverse ? --index : index++, this) === false) {
        break;
      }
    }
    return index;
  };

  List.prototype.__ensureOwner = function __ensureOwner (ownerID) {
    if (ownerID === this.__ownerID) {
      return this;
    }
    if (!ownerID) {
      if (this.size === 0) {
        return emptyList();
      }
      this.__ownerID = ownerID;
      this.__altered = false;
      return this;
    }
    return makeList(
      this._origin,
      this._capacity,
      this._level,
      this._root,
      this._tail,
      ownerID,
      this.__hash
    );
  };

  return List;
}(IndexedCollection));

List.isList = isList;

var ListPrototype = List.prototype;
ListPrototype[IS_LIST_SYMBOL] = true;
ListPrototype[DELETE] = ListPrototype.remove;
ListPrototype.merge = ListPrototype.concat;
ListPrototype.setIn = setIn;
ListPrototype.deleteIn = ListPrototype.removeIn = deleteIn;
ListPrototype.update = update;
ListPrototype.updateIn = updateIn;
ListPrototype.mergeIn = mergeIn;
ListPrototype.mergeDeepIn = mergeDeepIn;
ListPrototype.withMutations = withMutations;
ListPrototype.wasAltered = wasAltered;
ListPrototype.asImmutable = asImmutable;
ListPrototype['@@transducer/init'] = ListPrototype.asMutable = asMutable;
ListPrototype['@@transducer/step'] = function (result, arr) {
  return result.push(arr);
};
ListPrototype['@@transducer/result'] = function (obj) {
  return obj.asImmutable();
};

var VNode = function VNode(array, ownerID) {
  this.array = array;
  this.ownerID = ownerID;
};

// TODO: seems like these methods are very similar

VNode.prototype.removeBefore = function removeBefore (ownerID, level, index) {
  if (index === level ? 1 << level : this.array.length === 0) {
    return this;
  }
  var originIndex = (index >>> level) & MASK;
  if (originIndex >= this.array.length) {
    return new VNode([], ownerID);
  }
  var removingFirst = originIndex === 0;
  var newChild;
  if (level > 0) {
    var oldChild = this.array[originIndex];
    newChild =
      oldChild && oldChild.removeBefore(ownerID, level - SHIFT, index);
    if (newChild === oldChild && removingFirst) {
      return this;
    }
  }
  if (removingFirst && !newChild) {
    return this;
  }
  var editable = editableVNode(this, ownerID);
  if (!removingFirst) {
    for (var ii = 0; ii < originIndex; ii++) {
      editable.array[ii] = undefined;
    }
  }
  if (newChild) {
    editable.array[originIndex] = newChild;
  }
  return editable;
};

VNode.prototype.removeAfter = function removeAfter (ownerID, level, index) {
  if (index === (level ? 1 << level : 0) || this.array.length === 0) {
    return this;
  }
  var sizeIndex = ((index - 1) >>> level) & MASK;
  if (sizeIndex >= this.array.length) {
    return this;
  }

  var newChild;
  if (level > 0) {
    var oldChild = this.array[sizeIndex];
    newChild =
      oldChild && oldChild.removeAfter(ownerID, level - SHIFT, index);
    if (newChild === oldChild && sizeIndex === this.array.length - 1) {
      return this;
    }
  }

  var editable = editableVNode(this, ownerID);
  editable.array.splice(sizeIndex + 1);
  if (newChild) {
    editable.array[sizeIndex] = newChild;
  }
  return editable;
};

var DONE = {};

function iterateList(list, reverse) {
  var left = list._origin;
  var right = list._capacity;
  var tailPos = getTailOffset(right);
  var tail = list._tail;

  return iterateNodeOrLeaf(list._root, list._level, 0);

  function iterateNodeOrLeaf(node, level, offset) {
    return level === 0
      ? iterateLeaf(node, offset)
      : iterateNode(node, level, offset);
  }

  function iterateLeaf(node, offset) {
    var array = offset === tailPos ? tail && tail.array : node && node.array;
    var from = offset > left ? 0 : left - offset;
    var to = right - offset;
    if (to > SIZE) {
      to = SIZE;
    }
    return function () {
      if (from === to) {
        return DONE;
      }
      var idx = reverse ? --to : from++;
      return array && array[idx];
    };
  }

  function iterateNode(node, level, offset) {
    var values;
    var array = node && node.array;
    var from = offset > left ? 0 : (left - offset) >> level;
    var to = ((right - offset) >> level) + 1;
    if (to > SIZE) {
      to = SIZE;
    }
    return function () {
      while (true) {
        if (values) {
          var value = values();
          if (value !== DONE) {
            return value;
          }
          values = null;
        }
        if (from === to) {
          return DONE;
        }
        var idx = reverse ? --to : from++;
        values = iterateNodeOrLeaf(
          array && array[idx],
          level - SHIFT,
          offset + (idx << level)
        );
      }
    };
  }
}

function makeList(origin, capacity, level, root, tail, ownerID, hash) {
  var list = Object.create(ListPrototype);
  list.size = capacity - origin;
  list._origin = origin;
  list._capacity = capacity;
  list._level = level;
  list._root = root;
  list._tail = tail;
  list.__ownerID = ownerID;
  list.__hash = hash;
  list.__altered = false;
  return list;
}

var EMPTY_LIST;
function emptyList() {
  return EMPTY_LIST || (EMPTY_LIST = makeList(0, 0, SHIFT));
}

function updateList(list, index, value) {
  index = wrapIndex(list, index);

  if (index !== index) {
    return list;
  }

  if (index >= list.size || index < 0) {
    return list.withMutations(function (list) {
      index < 0
        ? setListBounds(list, index).set(0, value)
        : setListBounds(list, 0, index + 1).set(index, value);
    });
  }

  index += list._origin;

  var newTail = list._tail;
  var newRoot = list._root;
  var didAlter = MakeRef();
  if (index >= getTailOffset(list._capacity)) {
    newTail = updateVNode(newTail, list.__ownerID, 0, index, value, didAlter);
  } else {
    newRoot = updateVNode(
      newRoot,
      list.__ownerID,
      list._level,
      index,
      value,
      didAlter
    );
  }

  if (!didAlter.value) {
    return list;
  }

  if (list.__ownerID) {
    list._root = newRoot;
    list._tail = newTail;
    list.__hash = undefined;
    list.__altered = true;
    return list;
  }
  return makeList(list._origin, list._capacity, list._level, newRoot, newTail);
}

function updateVNode(node, ownerID, level, index, value, didAlter) {
  var idx = (index >>> level) & MASK;
  var nodeHas = node && idx < node.array.length;
  if (!nodeHas && value === undefined) {
    return node;
  }

  var newNode;

  if (level > 0) {
    var lowerNode = node && node.array[idx];
    var newLowerNode = updateVNode(
      lowerNode,
      ownerID,
      level - SHIFT,
      index,
      value,
      didAlter
    );
    if (newLowerNode === lowerNode) {
      return node;
    }
    newNode = editableVNode(node, ownerID);
    newNode.array[idx] = newLowerNode;
    return newNode;
  }

  if (nodeHas && node.array[idx] === value) {
    return node;
  }

  if (didAlter) {
    SetRef(didAlter);
  }

  newNode = editableVNode(node, ownerID);
  if (value === undefined && idx === newNode.array.length - 1) {
    newNode.array.pop();
  } else {
    newNode.array[idx] = value;
  }
  return newNode;
}

function editableVNode(node, ownerID) {
  if (ownerID && node && ownerID === node.ownerID) {
    return node;
  }
  return new VNode(node ? node.array.slice() : [], ownerID);
}

function listNodeFor(list, rawIndex) {
  if (rawIndex >= getTailOffset(list._capacity)) {
    return list._tail;
  }
  if (rawIndex < 1 << (list._level + SHIFT)) {
    var node = list._root;
    var level = list._level;
    while (node && level > 0) {
      node = node.array[(rawIndex >>> level) & MASK];
      level -= SHIFT;
    }
    return node;
  }
}

function setListBounds(list, begin, end) {
  // Sanitize begin & end using this shorthand for ToInt32(argument)
  // http://www.ecma-international.org/ecma-262/6.0/#sec-toint32
  if (begin !== undefined) {
    begin |= 0;
  }
  if (end !== undefined) {
    end |= 0;
  }
  var owner = list.__ownerID || new OwnerID();
  var oldOrigin = list._origin;
  var oldCapacity = list._capacity;
  var newOrigin = oldOrigin + begin;
  var newCapacity =
    end === undefined
      ? oldCapacity
      : end < 0
      ? oldCapacity + end
      : oldOrigin + end;
  if (newOrigin === oldOrigin && newCapacity === oldCapacity) {
    return list;
  }

  // If it's going to end after it starts, it's empty.
  if (newOrigin >= newCapacity) {
    return list.clear();
  }

  var newLevel = list._level;
  var newRoot = list._root;

  // New origin might need creating a higher root.
  var offsetShift = 0;
  while (newOrigin + offsetShift < 0) {
    newRoot = new VNode(
      newRoot && newRoot.array.length ? [undefined, newRoot] : [],
      owner
    );
    newLevel += SHIFT;
    offsetShift += 1 << newLevel;
  }
  if (offsetShift) {
    newOrigin += offsetShift;
    oldOrigin += offsetShift;
    newCapacity += offsetShift;
    oldCapacity += offsetShift;
  }

  var oldTailOffset = getTailOffset(oldCapacity);
  var newTailOffset = getTailOffset(newCapacity);

  // New size might need creating a higher root.
  while (newTailOffset >= 1 << (newLevel + SHIFT)) {
    newRoot = new VNode(
      newRoot && newRoot.array.length ? [newRoot] : [],
      owner
    );
    newLevel += SHIFT;
  }

  // Locate or create the new tail.
  var oldTail = list._tail;
  var newTail =
    newTailOffset < oldTailOffset
      ? listNodeFor(list, newCapacity - 1)
      : newTailOffset > oldTailOffset
      ? new VNode([], owner)
      : oldTail;

  // Merge Tail into tree.
  if (
    oldTail &&
    newTailOffset > oldTailOffset &&
    newOrigin < oldCapacity &&
    oldTail.array.length
  ) {
    newRoot = editableVNode(newRoot, owner);
    var node = newRoot;
    for (var level = newLevel; level > SHIFT; level -= SHIFT) {
      var idx = (oldTailOffset >>> level) & MASK;
      node = node.array[idx] = editableVNode(node.array[idx], owner);
    }
    node.array[(oldTailOffset >>> SHIFT) & MASK] = oldTail;
  }

  // If the size has been reduced, there's a chance the tail needs to be trimmed.
  if (newCapacity < oldCapacity) {
    newTail = newTail && newTail.removeAfter(owner, 0, newCapacity);
  }

  // If the new origin is within the tail, then we do not need a root.
  if (newOrigin >= newTailOffset) {
    newOrigin -= newTailOffset;
    newCapacity -= newTailOffset;
    newLevel = SHIFT;
    newRoot = null;
    newTail = newTail && newTail.removeBefore(owner, 0, newOrigin);

    // Otherwise, if the root has been trimmed, garbage collect.
  } else if (newOrigin > oldOrigin || newTailOffset < oldTailOffset) {
    offsetShift = 0;

    // Identify the new top root node of the subtree of the old root.
    while (newRoot) {
      var beginIndex = (newOrigin >>> newLevel) & MASK;
      if ((beginIndex !== newTailOffset >>> newLevel) & MASK) {
        break;
      }
      if (beginIndex) {
        offsetShift += (1 << newLevel) * beginIndex;
      }
      newLevel -= SHIFT;
      newRoot = newRoot.array[beginIndex];
    }

    // Trim the new sides of the new root.
    if (newRoot && newOrigin > oldOrigin) {
      newRoot = newRoot.removeBefore(owner, newLevel, newOrigin - offsetShift);
    }
    if (newRoot && newTailOffset < oldTailOffset) {
      newRoot = newRoot.removeAfter(
        owner,
        newLevel,
        newTailOffset - offsetShift
      );
    }
    if (offsetShift) {
      newOrigin -= offsetShift;
      newCapacity -= offsetShift;
    }
  }

  if (list.__ownerID) {
    list.size = newCapacity - newOrigin;
    list._origin = newOrigin;
    list._capacity = newCapacity;
    list._level = newLevel;
    list._root = newRoot;
    list._tail = newTail;
    list.__hash = undefined;
    list.__altered = true;
    return list;
  }
  return makeList(newOrigin, newCapacity, newLevel, newRoot, newTail);
}

function getTailOffset(size) {
  return size < SIZE ? 0 : ((size - 1) >>> SHIFT) << SHIFT;
}

var OrderedMap = /*@__PURE__*/(function (Map) {
  function OrderedMap(value) {
    return value === undefined || value === null
      ? emptyOrderedMap()
      : isOrderedMap(value)
      ? value
      : emptyOrderedMap().withMutations(function (map) {
          var iter = KeyedCollection(value);
          assertNotInfinite(iter.size);
          iter.forEach(function (v, k) { return map.set(k, v); });
        });
  }

  if ( Map ) OrderedMap.__proto__ = Map;
  OrderedMap.prototype = Object.create( Map && Map.prototype );
  OrderedMap.prototype.constructor = OrderedMap;

  OrderedMap.of = function of (/*...values*/) {
    return this(arguments);
  };

  OrderedMap.prototype.toString = function toString () {
    return this.__toString('OrderedMap {', '}');
  };

  // @pragma Access

  OrderedMap.prototype.get = function get (k, notSetValue) {
    var index = this._map.get(k);
    return index !== undefined ? this._list.get(index)[1] : notSetValue;
  };

  // @pragma Modification

  OrderedMap.prototype.clear = function clear () {
    if (this.size === 0) {
      return this;
    }
    if (this.__ownerID) {
      this.size = 0;
      this._map.clear();
      this._list.clear();
      this.__altered = true;
      return this;
    }
    return emptyOrderedMap();
  };

  OrderedMap.prototype.set = function set (k, v) {
    return updateOrderedMap(this, k, v);
  };

  OrderedMap.prototype.remove = function remove (k) {
    return updateOrderedMap(this, k, NOT_SET);
  };

  OrderedMap.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    return this._list.__iterate(
      function (entry) { return entry && fn(entry[1], entry[0], this$1$1); },
      reverse
    );
  };

  OrderedMap.prototype.__iterator = function __iterator (type, reverse) {
    return this._list.fromEntrySeq().__iterator(type, reverse);
  };

  OrderedMap.prototype.__ensureOwner = function __ensureOwner (ownerID) {
    if (ownerID === this.__ownerID) {
      return this;
    }
    var newMap = this._map.__ensureOwner(ownerID);
    var newList = this._list.__ensureOwner(ownerID);
    if (!ownerID) {
      if (this.size === 0) {
        return emptyOrderedMap();
      }
      this.__ownerID = ownerID;
      this.__altered = false;
      this._map = newMap;
      this._list = newList;
      return this;
    }
    return makeOrderedMap(newMap, newList, ownerID, this.__hash);
  };

  return OrderedMap;
}(Map));

OrderedMap.isOrderedMap = isOrderedMap;

OrderedMap.prototype[IS_ORDERED_SYMBOL] = true;
OrderedMap.prototype[DELETE] = OrderedMap.prototype.remove;

function makeOrderedMap(map, list, ownerID, hash) {
  var omap = Object.create(OrderedMap.prototype);
  omap.size = map ? map.size : 0;
  omap._map = map;
  omap._list = list;
  omap.__ownerID = ownerID;
  omap.__hash = hash;
  omap.__altered = false;
  return omap;
}

var EMPTY_ORDERED_MAP;
function emptyOrderedMap() {
  return (
    EMPTY_ORDERED_MAP ||
    (EMPTY_ORDERED_MAP = makeOrderedMap(emptyMap(), emptyList()))
  );
}

function updateOrderedMap(omap, k, v) {
  var map = omap._map;
  var list = omap._list;
  var i = map.get(k);
  var has = i !== undefined;
  var newMap;
  var newList;
  if (v === NOT_SET) {
    // removed
    if (!has) {
      return omap;
    }
    if (list.size >= SIZE && list.size >= map.size * 2) {
      newList = list.filter(function (entry, idx) { return entry !== undefined && i !== idx; });
      newMap = newList
        .toKeyedSeq()
        .map(function (entry) { return entry[0]; })
        .flip()
        .toMap();
      if (omap.__ownerID) {
        newMap.__ownerID = newList.__ownerID = omap.__ownerID;
      }
    } else {
      newMap = map.remove(k);
      newList = i === list.size - 1 ? list.pop() : list.set(i, undefined);
    }
  } else if (has) {
    if (v === list.get(i)[1]) {
      return omap;
    }
    newMap = map;
    newList = list.set(i, [k, v]);
  } else {
    newMap = map.set(k, list.size);
    newList = list.set(list.size, [k, v]);
  }
  if (omap.__ownerID) {
    omap.size = newMap.size;
    omap._map = newMap;
    omap._list = newList;
    omap.__hash = undefined;
    omap.__altered = true;
    return omap;
  }
  return makeOrderedMap(newMap, newList);
}

var IS_STACK_SYMBOL = '@@__IMMUTABLE_STACK__@@';

function isStack(maybeStack) {
  return Boolean(maybeStack && maybeStack[IS_STACK_SYMBOL]);
}

var Stack = /*@__PURE__*/(function (IndexedCollection) {
  function Stack(value) {
    return value === undefined || value === null
      ? emptyStack()
      : isStack(value)
      ? value
      : emptyStack().pushAll(value);
  }

  if ( IndexedCollection ) Stack.__proto__ = IndexedCollection;
  Stack.prototype = Object.create( IndexedCollection && IndexedCollection.prototype );
  Stack.prototype.constructor = Stack;

  Stack.of = function of (/*...values*/) {
    return this(arguments);
  };

  Stack.prototype.toString = function toString () {
    return this.__toString('Stack [', ']');
  };

  // @pragma Access

  Stack.prototype.get = function get (index, notSetValue) {
    var head = this._head;
    index = wrapIndex(this, index);
    while (head && index--) {
      head = head.next;
    }
    return head ? head.value : notSetValue;
  };

  Stack.prototype.peek = function peek () {
    return this._head && this._head.value;
  };

  // @pragma Modification

  Stack.prototype.push = function push (/*...values*/) {
    var arguments$1 = arguments;

    if (arguments.length === 0) {
      return this;
    }
    var newSize = this.size + arguments.length;
    var head = this._head;
    for (var ii = arguments.length - 1; ii >= 0; ii--) {
      head = {
        value: arguments$1[ii],
        next: head,
      };
    }
    if (this.__ownerID) {
      this.size = newSize;
      this._head = head;
      this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return makeStack(newSize, head);
  };

  Stack.prototype.pushAll = function pushAll (iter) {
    iter = IndexedCollection(iter);
    if (iter.size === 0) {
      return this;
    }
    if (this.size === 0 && isStack(iter)) {
      return iter;
    }
    assertNotInfinite(iter.size);
    var newSize = this.size;
    var head = this._head;
    iter.__iterate(function (value) {
      newSize++;
      head = {
        value: value,
        next: head,
      };
    }, /* reverse */ true);
    if (this.__ownerID) {
      this.size = newSize;
      this._head = head;
      this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return makeStack(newSize, head);
  };

  Stack.prototype.pop = function pop () {
    return this.slice(1);
  };

  Stack.prototype.clear = function clear () {
    if (this.size === 0) {
      return this;
    }
    if (this.__ownerID) {
      this.size = 0;
      this._head = undefined;
      this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return emptyStack();
  };

  Stack.prototype.slice = function slice (begin, end) {
    if (wholeSlice(begin, end, this.size)) {
      return this;
    }
    var resolvedBegin = resolveBegin(begin, this.size);
    var resolvedEnd = resolveEnd(end, this.size);
    if (resolvedEnd !== this.size) {
      // super.slice(begin, end);
      return IndexedCollection.prototype.slice.call(this, begin, end);
    }
    var newSize = this.size - resolvedBegin;
    var head = this._head;
    while (resolvedBegin--) {
      head = head.next;
    }
    if (this.__ownerID) {
      this.size = newSize;
      this._head = head;
      this.__hash = undefined;
      this.__altered = true;
      return this;
    }
    return makeStack(newSize, head);
  };

  // @pragma Mutability

  Stack.prototype.__ensureOwner = function __ensureOwner (ownerID) {
    if (ownerID === this.__ownerID) {
      return this;
    }
    if (!ownerID) {
      if (this.size === 0) {
        return emptyStack();
      }
      this.__ownerID = ownerID;
      this.__altered = false;
      return this;
    }
    return makeStack(this.size, this._head, ownerID, this.__hash);
  };

  // @pragma Iteration

  Stack.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    if (reverse) {
      return new ArraySeq(this.toArray()).__iterate(
        function (v, k) { return fn(v, k, this$1$1); },
        reverse
      );
    }
    var iterations = 0;
    var node = this._head;
    while (node) {
      if (fn(node.value, iterations++, this) === false) {
        break;
      }
      node = node.next;
    }
    return iterations;
  };

  Stack.prototype.__iterator = function __iterator (type, reverse) {
    if (reverse) {
      return new ArraySeq(this.toArray()).__iterator(type, reverse);
    }
    var iterations = 0;
    var node = this._head;
    return new Iterator(function () {
      if (node) {
        var value = node.value;
        node = node.next;
        return iteratorValue(type, iterations++, value);
      }
      return iteratorDone();
    });
  };

  return Stack;
}(IndexedCollection));

Stack.isStack = isStack;

var StackPrototype = Stack.prototype;
StackPrototype[IS_STACK_SYMBOL] = true;
StackPrototype.shift = StackPrototype.pop;
StackPrototype.unshift = StackPrototype.push;
StackPrototype.unshiftAll = StackPrototype.pushAll;
StackPrototype.withMutations = withMutations;
StackPrototype.wasAltered = wasAltered;
StackPrototype.asImmutable = asImmutable;
StackPrototype['@@transducer/init'] = StackPrototype.asMutable = asMutable;
StackPrototype['@@transducer/step'] = function (result, arr) {
  return result.unshift(arr);
};
StackPrototype['@@transducer/result'] = function (obj) {
  return obj.asImmutable();
};

function makeStack(size, head, ownerID, hash) {
  var map = Object.create(StackPrototype);
  map.size = size;
  map._head = head;
  map.__ownerID = ownerID;
  map.__hash = hash;
  map.__altered = false;
  return map;
}

var EMPTY_STACK;
function emptyStack() {
  return EMPTY_STACK || (EMPTY_STACK = makeStack(0));
}

var IS_SET_SYMBOL = '@@__IMMUTABLE_SET__@@';

function isSet(maybeSet) {
  return Boolean(maybeSet && maybeSet[IS_SET_SYMBOL]);
}

function isOrderedSet(maybeOrderedSet) {
  return isSet(maybeOrderedSet) && isOrdered(maybeOrderedSet);
}

function deepEqual(a, b) {
  if (a === b) {
    return true;
  }

  if (
    !isCollection(b) ||
    (a.size !== undefined && b.size !== undefined && a.size !== b.size) ||
    (a.__hash !== undefined &&
      b.__hash !== undefined &&
      a.__hash !== b.__hash) ||
    isKeyed(a) !== isKeyed(b) ||
    isIndexed(a) !== isIndexed(b) ||
    isOrdered(a) !== isOrdered(b)
  ) {
    return false;
  }

  if (a.size === 0 && b.size === 0) {
    return true;
  }

  var notAssociative = !isAssociative(a);

  if (isOrdered(a)) {
    var entries = a.entries();
    return (
      b.every(function (v, k) {
        var entry = entries.next().value;
        return entry && is(entry[1], v) && (notAssociative || is(entry[0], k));
      }) && entries.next().done
    );
  }

  var flipped = false;

  if (a.size === undefined) {
    if (b.size === undefined) {
      if (typeof a.cacheResult === 'function') {
        a.cacheResult();
      }
    } else {
      flipped = true;
      var _ = a;
      a = b;
      b = _;
    }
  }

  var allEqual = true;
  var bSize = b.__iterate(function (v, k) {
    if (
      notAssociative
        ? !a.has(v)
        : flipped
        ? !is(v, a.get(k, NOT_SET))
        : !is(a.get(k, NOT_SET), v)
    ) {
      allEqual = false;
      return false;
    }
  });

  return allEqual && a.size === bSize;
}

function mixin(ctor, methods) {
  var keyCopier = function (key) {
    ctor.prototype[key] = methods[key];
  };
  Object.keys(methods).forEach(keyCopier);
  Object.getOwnPropertySymbols &&
    Object.getOwnPropertySymbols(methods).forEach(keyCopier);
  return ctor;
}

function toJS(value) {
  if (!value || typeof value !== 'object') {
    return value;
  }
  if (!isCollection(value)) {
    if (!isDataStructure(value)) {
      return value;
    }
    value = Seq(value);
  }
  if (isKeyed(value)) {
    var result$1 = {};
    value.__iterate(function (v, k) {
      result$1[k] = toJS(v);
    });
    return result$1;
  }
  var result = [];
  value.__iterate(function (v) {
    result.push(toJS(v));
  });
  return result;
}

var Set = /*@__PURE__*/(function (SetCollection) {
  function Set(value) {
    return value === undefined || value === null
      ? emptySet()
      : isSet(value) && !isOrdered(value)
      ? value
      : emptySet().withMutations(function (set) {
          var iter = SetCollection(value);
          assertNotInfinite(iter.size);
          iter.forEach(function (v) { return set.add(v); });
        });
  }

  if ( SetCollection ) Set.__proto__ = SetCollection;
  Set.prototype = Object.create( SetCollection && SetCollection.prototype );
  Set.prototype.constructor = Set;

  Set.of = function of (/*...values*/) {
    return this(arguments);
  };

  Set.fromKeys = function fromKeys (value) {
    return this(KeyedCollection(value).keySeq());
  };

  Set.intersect = function intersect (sets) {
    sets = Collection(sets).toArray();
    return sets.length
      ? SetPrototype.intersect.apply(Set(sets.pop()), sets)
      : emptySet();
  };

  Set.union = function union (sets) {
    sets = Collection(sets).toArray();
    return sets.length
      ? SetPrototype.union.apply(Set(sets.pop()), sets)
      : emptySet();
  };

  Set.prototype.toString = function toString () {
    return this.__toString('Set {', '}');
  };

  // @pragma Access

  Set.prototype.has = function has (value) {
    return this._map.has(value);
  };

  // @pragma Modification

  Set.prototype.add = function add (value) {
    return updateSet(this, this._map.set(value, value));
  };

  Set.prototype.remove = function remove (value) {
    return updateSet(this, this._map.remove(value));
  };

  Set.prototype.clear = function clear () {
    return updateSet(this, this._map.clear());
  };

  // @pragma Composition

  Set.prototype.map = function map (mapper, context) {
    var this$1$1 = this;

    // keep track if the set is altered by the map function
    var didChanges = false;

    var newMap = updateSet(
      this,
      this._map.mapEntries(function (ref) {
        var v = ref[1];

        var mapped = mapper.call(context, v, v, this$1$1);

        if (mapped !== v) {
          didChanges = true;
        }

        return [mapped, mapped];
      }, context)
    );

    return didChanges ? newMap : this;
  };

  Set.prototype.union = function union () {
    var iters = [], len = arguments.length;
    while ( len-- ) iters[ len ] = arguments[ len ];

    iters = iters.filter(function (x) { return x.size !== 0; });
    if (iters.length === 0) {
      return this;
    }
    if (this.size === 0 && !this.__ownerID && iters.length === 1) {
      return this.constructor(iters[0]);
    }
    return this.withMutations(function (set) {
      for (var ii = 0; ii < iters.length; ii++) {
        if (typeof iters[ii] === 'string') {
          set.add(iters[ii]);
        } else {
          SetCollection(iters[ii]).forEach(function (value) { return set.add(value); });
        }
      }
    });
  };

  Set.prototype.intersect = function intersect () {
    var iters = [], len = arguments.length;
    while ( len-- ) iters[ len ] = arguments[ len ];

    if (iters.length === 0) {
      return this;
    }
    iters = iters.map(function (iter) { return SetCollection(iter); });
    var toRemove = [];
    this.forEach(function (value) {
      if (!iters.every(function (iter) { return iter.includes(value); })) {
        toRemove.push(value);
      }
    });
    return this.withMutations(function (set) {
      toRemove.forEach(function (value) {
        set.remove(value);
      });
    });
  };

  Set.prototype.subtract = function subtract () {
    var iters = [], len = arguments.length;
    while ( len-- ) iters[ len ] = arguments[ len ];

    if (iters.length === 0) {
      return this;
    }
    iters = iters.map(function (iter) { return SetCollection(iter); });
    var toRemove = [];
    this.forEach(function (value) {
      if (iters.some(function (iter) { return iter.includes(value); })) {
        toRemove.push(value);
      }
    });
    return this.withMutations(function (set) {
      toRemove.forEach(function (value) {
        set.remove(value);
      });
    });
  };

  Set.prototype.sort = function sort (comparator) {
    // Late binding
    return OrderedSet(sortFactory(this, comparator));
  };

  Set.prototype.sortBy = function sortBy (mapper, comparator) {
    // Late binding
    return OrderedSet(sortFactory(this, comparator, mapper));
  };

  Set.prototype.wasAltered = function wasAltered () {
    return this._map.wasAltered();
  };

  Set.prototype.__iterate = function __iterate (fn, reverse) {
    var this$1$1 = this;

    return this._map.__iterate(function (k) { return fn(k, k, this$1$1); }, reverse);
  };

  Set.prototype.__iterator = function __iterator (type, reverse) {
    return this._map.__iterator(type, reverse);
  };

  Set.prototype.__ensureOwner = function __ensureOwner (ownerID) {
    if (ownerID === this.__ownerID) {
      return this;
    }
    var newMap = this._map.__ensureOwner(ownerID);
    if (!ownerID) {
      if (this.size === 0) {
        return this.__empty();
      }
      this.__ownerID = ownerID;
      this._map = newMap;
      return this;
    }
    return this.__make(newMap, ownerID);
  };

  return Set;
}(SetCollection));

Set.isSet = isSet;

var SetPrototype = Set.prototype;
SetPrototype[IS_SET_SYMBOL] = true;
SetPrototype[DELETE] = SetPrototype.remove;
SetPrototype.merge = SetPrototype.concat = SetPrototype.union;
SetPrototype.withMutations = withMutations;
SetPrototype.asImmutable = asImmutable;
SetPrototype['@@transducer/init'] = SetPrototype.asMutable = asMutable;
SetPrototype['@@transducer/step'] = function (result, arr) {
  return result.add(arr);
};
SetPrototype['@@transducer/result'] = function (obj) {
  return obj.asImmutable();
};

SetPrototype.__empty = emptySet;
SetPrototype.__make = makeSet;

function updateSet(set, newMap) {
  if (set.__ownerID) {
    set.size = newMap.size;
    set._map = newMap;
    return set;
  }
  return newMap === set._map
    ? set
    : newMap.size === 0
    ? set.__empty()
    : set.__make(newMap);
}

function makeSet(map, ownerID) {
  var set = Object.create(SetPrototype);
  set.size = map ? map.size : 0;
  set._map = map;
  set.__ownerID = ownerID;
  return set;
}

var EMPTY_SET;
function emptySet() {
  return EMPTY_SET || (EMPTY_SET = makeSet(emptyMap()));
}

/**
 * Returns a lazy seq of nums from start (inclusive) to end
 * (exclusive), by step, where start defaults to 0, step to 1, and end to
 * infinity. When start is equal to end, returns empty list.
 */
var Range = /*@__PURE__*/(function (IndexedSeq) {
  function Range(start, end, step) {
    if (!(this instanceof Range)) {
      return new Range(start, end, step);
    }
    invariant(step !== 0, 'Cannot step a Range by 0');
    start = start || 0;
    if (end === undefined) {
      end = Infinity;
    }
    step = step === undefined ? 1 : Math.abs(step);
    if (end < start) {
      step = -step;
    }
    this._start = start;
    this._end = end;
    this._step = step;
    this.size = Math.max(0, Math.ceil((end - start) / step - 1) + 1);
    if (this.size === 0) {
      if (EMPTY_RANGE) {
        return EMPTY_RANGE;
      }
      EMPTY_RANGE = this;
    }
  }

  if ( IndexedSeq ) Range.__proto__ = IndexedSeq;
  Range.prototype = Object.create( IndexedSeq && IndexedSeq.prototype );
  Range.prototype.constructor = Range;

  Range.prototype.toString = function toString () {
    if (this.size === 0) {
      return 'Range []';
    }
    return (
      'Range [ ' +
      this._start +
      '...' +
      this._end +
      (this._step !== 1 ? ' by ' + this._step : '') +
      ' ]'
    );
  };

  Range.prototype.get = function get (index, notSetValue) {
    return this.has(index)
      ? this._start + wrapIndex(this, index) * this._step
      : notSetValue;
  };

  Range.prototype.includes = function includes (searchValue) {
    var possibleIndex = (searchValue - this._start) / this._step;
    return (
      possibleIndex >= 0 &&
      possibleIndex < this.size &&
      possibleIndex === Math.floor(possibleIndex)
    );
  };

  Range.prototype.slice = function slice (begin, end) {
    if (wholeSlice(begin, end, this.size)) {
      return this;
    }
    begin = resolveBegin(begin, this.size);
    end = resolveEnd(end, this.size);
    if (end <= begin) {
      return new Range(0, 0);
    }
    return new Range(
      this.get(begin, this._end),
      this.get(end, this._end),
      this._step
    );
  };

  Range.prototype.indexOf = function indexOf (searchValue) {
    var offsetValue = searchValue - this._start;
    if (offsetValue % this._step === 0) {
      var index = offsetValue / this._step;
      if (index >= 0 && index < this.size) {
        return index;
      }
    }
    return -1;
  };

  Range.prototype.lastIndexOf = function lastIndexOf (searchValue) {
    return this.indexOf(searchValue);
  };

  Range.prototype.__iterate = function __iterate (fn, reverse) {
    var size = this.size;
    var step = this._step;
    var value = reverse ? this._start + (size - 1) * step : this._start;
    var i = 0;
    while (i !== size) {
      if (fn(value, reverse ? size - ++i : i++, this) === false) {
        break;
      }
      value += reverse ? -step : step;
    }
    return i;
  };

  Range.prototype.__iterator = function __iterator (type, reverse) {
    var size = this.size;
    var step = this._step;
    var value = reverse ? this._start + (size - 1) * step : this._start;
    var i = 0;
    return new Iterator(function () {
      if (i === size) {
        return iteratorDone();
      }
      var v = value;
      value += reverse ? -step : step;
      return iteratorValue(type, reverse ? size - ++i : i++, v);
    });
  };

  Range.prototype.equals = function equals (other) {
    return other instanceof Range
      ? this._start === other._start &&
          this._end === other._end &&
          this._step === other._step
      : deepEqual(this, other);
  };

  return Range;
}(IndexedSeq));

var EMPTY_RANGE;

function getIn$1(collection, searchKeyPath, notSetValue) {
  var keyPath = coerceKeyPath(searchKeyPath);
  var i = 0;
  while (i !== keyPath.length) {
    collection = get(collection, keyPath[i++], NOT_SET);
    if (collection === NOT_SET) {
      return notSetValue;
    }
  }
  return collection;
}

function getIn(searchKeyPath, notSetValue) {
  return getIn$1(this, searchKeyPath, notSetValue);
}

function hasIn$1(collection, keyPath) {
  return getIn$1(collection, keyPath, NOT_SET) !== NOT_SET;
}

function hasIn(searchKeyPath) {
  return hasIn$1(this, searchKeyPath);
}

function toObject() {
  assertNotInfinite(this.size);
  var object = {};
  this.__iterate(function (v, k) {
    object[k] = v;
  });
  return object;
}

// Note: all of these methods are deprecated.
Collection.isIterable = isCollection;
Collection.isKeyed = isKeyed;
Collection.isIndexed = isIndexed;
Collection.isAssociative = isAssociative;
Collection.isOrdered = isOrdered;

Collection.Iterator = Iterator;

mixin(Collection, {
  // ### Conversion to other types

  toArray: function toArray() {
    assertNotInfinite(this.size);
    var array = new Array(this.size || 0);
    var useTuples = isKeyed(this);
    var i = 0;
    this.__iterate(function (v, k) {
      // Keyed collections produce an array of tuples.
      array[i++] = useTuples ? [k, v] : v;
    });
    return array;
  },

  toIndexedSeq: function toIndexedSeq() {
    return new ToIndexedSequence(this);
  },

  toJS: function toJS$1() {
    return toJS(this);
  },

  toKeyedSeq: function toKeyedSeq() {
    return new ToKeyedSequence(this, true);
  },

  toMap: function toMap() {
    // Use Late Binding here to solve the circular dependency.
    return Map(this.toKeyedSeq());
  },

  toObject: toObject,

  toOrderedMap: function toOrderedMap() {
    // Use Late Binding here to solve the circular dependency.
    return OrderedMap(this.toKeyedSeq());
  },

  toOrderedSet: function toOrderedSet() {
    // Use Late Binding here to solve the circular dependency.
    return OrderedSet(isKeyed(this) ? this.valueSeq() : this);
  },

  toSet: function toSet() {
    // Use Late Binding here to solve the circular dependency.
    return Set(isKeyed(this) ? this.valueSeq() : this);
  },

  toSetSeq: function toSetSeq() {
    return new ToSetSequence(this);
  },

  toSeq: function toSeq() {
    return isIndexed(this)
      ? this.toIndexedSeq()
      : isKeyed(this)
      ? this.toKeyedSeq()
      : this.toSetSeq();
  },

  toStack: function toStack() {
    // Use Late Binding here to solve the circular dependency.
    return Stack(isKeyed(this) ? this.valueSeq() : this);
  },

  toList: function toList() {
    // Use Late Binding here to solve the circular dependency.
    return List(isKeyed(this) ? this.valueSeq() : this);
  },

  // ### Common JavaScript methods and properties

  toString: function toString() {
    return '[Collection]';
  },

  __toString: function __toString(head, tail) {
    if (this.size === 0) {
      return head + tail;
    }
    return (
      head +
      ' ' +
      this.toSeq().map(this.__toStringMapper).join(', ') +
      ' ' +
      tail
    );
  },

  // ### ES6 Collection methods (ES6 Array and Map)

  concat: function concat() {
    var values = [], len = arguments.length;
    while ( len-- ) values[ len ] = arguments[ len ];

    return reify(this, concatFactory(this, values));
  },

  includes: function includes(searchValue) {
    return this.some(function (value) { return is(value, searchValue); });
  },

  entries: function entries() {
    return this.__iterator(ITERATE_ENTRIES);
  },

  every: function every(predicate, context) {
    assertNotInfinite(this.size);
    var returnValue = true;
    this.__iterate(function (v, k, c) {
      if (!predicate.call(context, v, k, c)) {
        returnValue = false;
        return false;
      }
    });
    return returnValue;
  },

  filter: function filter(predicate, context) {
    return reify(this, filterFactory(this, predicate, context, true));
  },

  partition: function partition(predicate, context) {
    return partitionFactory(this, predicate, context);
  },

  find: function find(predicate, context, notSetValue) {
    var entry = this.findEntry(predicate, context);
    return entry ? entry[1] : notSetValue;
  },

  forEach: function forEach(sideEffect, context) {
    assertNotInfinite(this.size);
    return this.__iterate(context ? sideEffect.bind(context) : sideEffect);
  },

  join: function join(separator) {
    assertNotInfinite(this.size);
    separator = separator !== undefined ? '' + separator : ',';
    var joined = '';
    var isFirst = true;
    this.__iterate(function (v) {
      isFirst ? (isFirst = false) : (joined += separator);
      joined += v !== null && v !== undefined ? v.toString() : '';
    });
    return joined;
  },

  keys: function keys() {
    return this.__iterator(ITERATE_KEYS);
  },

  map: function map(mapper, context) {
    return reify(this, mapFactory(this, mapper, context));
  },

  reduce: function reduce$1(reducer, initialReduction, context) {
    return reduce(
      this,
      reducer,
      initialReduction,
      context,
      arguments.length < 2,
      false
    );
  },

  reduceRight: function reduceRight(reducer, initialReduction, context) {
    return reduce(
      this,
      reducer,
      initialReduction,
      context,
      arguments.length < 2,
      true
    );
  },

  reverse: function reverse() {
    return reify(this, reverseFactory(this, true));
  },

  slice: function slice(begin, end) {
    return reify(this, sliceFactory(this, begin, end, true));
  },

  some: function some(predicate, context) {
    return !this.every(not(predicate), context);
  },

  sort: function sort(comparator) {
    return reify(this, sortFactory(this, comparator));
  },

  values: function values() {
    return this.__iterator(ITERATE_VALUES);
  },

  // ### More sequential methods

  butLast: function butLast() {
    return this.slice(0, -1);
  },

  isEmpty: function isEmpty() {
    return this.size !== undefined ? this.size === 0 : !this.some(function () { return true; });
  },

  count: function count(predicate, context) {
    return ensureSize(
      predicate ? this.toSeq().filter(predicate, context) : this
    );
  },

  countBy: function countBy(grouper, context) {
    return countByFactory(this, grouper, context);
  },

  equals: function equals(other) {
    return deepEqual(this, other);
  },

  entrySeq: function entrySeq() {
    var collection = this;
    if (collection._cache) {
      // We cache as an entries array, so we can just return the cache!
      return new ArraySeq(collection._cache);
    }
    var entriesSequence = collection.toSeq().map(entryMapper).toIndexedSeq();
    entriesSequence.fromEntrySeq = function () { return collection.toSeq(); };
    return entriesSequence;
  },

  filterNot: function filterNot(predicate, context) {
    return this.filter(not(predicate), context);
  },

  findEntry: function findEntry(predicate, context, notSetValue) {
    var found = notSetValue;
    this.__iterate(function (v, k, c) {
      if (predicate.call(context, v, k, c)) {
        found = [k, v];
        return false;
      }
    });
    return found;
  },

  findKey: function findKey(predicate, context) {
    var entry = this.findEntry(predicate, context);
    return entry && entry[0];
  },

  findLast: function findLast(predicate, context, notSetValue) {
    return this.toKeyedSeq().reverse().find(predicate, context, notSetValue);
  },

  findLastEntry: function findLastEntry(predicate, context, notSetValue) {
    return this.toKeyedSeq()
      .reverse()
      .findEntry(predicate, context, notSetValue);
  },

  findLastKey: function findLastKey(predicate, context) {
    return this.toKeyedSeq().reverse().findKey(predicate, context);
  },

  first: function first(notSetValue) {
    return this.find(returnTrue, null, notSetValue);
  },

  flatMap: function flatMap(mapper, context) {
    return reify(this, flatMapFactory(this, mapper, context));
  },

  flatten: function flatten(depth) {
    return reify(this, flattenFactory(this, depth, true));
  },

  fromEntrySeq: function fromEntrySeq() {
    return new FromEntriesSequence(this);
  },

  get: function get(searchKey, notSetValue) {
    return this.find(function (_, key) { return is(key, searchKey); }, undefined, notSetValue);
  },

  getIn: getIn,

  groupBy: function groupBy(grouper, context) {
    return groupByFactory(this, grouper, context);
  },

  has: function has(searchKey) {
    return this.get(searchKey, NOT_SET) !== NOT_SET;
  },

  hasIn: hasIn,

  isSubset: function isSubset(iter) {
    iter = typeof iter.includes === 'function' ? iter : Collection(iter);
    return this.every(function (value) { return iter.includes(value); });
  },

  isSuperset: function isSuperset(iter) {
    iter = typeof iter.isSubset === 'function' ? iter : Collection(iter);
    return iter.isSubset(this);
  },

  keyOf: function keyOf(searchValue) {
    return this.findKey(function (value) { return is(value, searchValue); });
  },

  keySeq: function keySeq() {
    return this.toSeq().map(keyMapper).toIndexedSeq();
  },

  last: function last(notSetValue) {
    return this.toSeq().reverse().first(notSetValue);
  },

  lastKeyOf: function lastKeyOf(searchValue) {
    return this.toKeyedSeq().reverse().keyOf(searchValue);
  },

  max: function max(comparator) {
    return maxFactory(this, comparator);
  },

  maxBy: function maxBy(mapper, comparator) {
    return maxFactory(this, comparator, mapper);
  },

  min: function min(comparator) {
    return maxFactory(
      this,
      comparator ? neg(comparator) : defaultNegComparator
    );
  },

  minBy: function minBy(mapper, comparator) {
    return maxFactory(
      this,
      comparator ? neg(comparator) : defaultNegComparator,
      mapper
    );
  },

  rest: function rest() {
    return this.slice(1);
  },

  skip: function skip(amount) {
    return amount === 0 ? this : this.slice(Math.max(0, amount));
  },

  skipLast: function skipLast(amount) {
    return amount === 0 ? this : this.slice(0, -Math.max(0, amount));
  },

  skipWhile: function skipWhile(predicate, context) {
    return reify(this, skipWhileFactory(this, predicate, context, true));
  },

  skipUntil: function skipUntil(predicate, context) {
    return this.skipWhile(not(predicate), context);
  },

  sortBy: function sortBy(mapper, comparator) {
    return reify(this, sortFactory(this, comparator, mapper));
  },

  take: function take(amount) {
    return this.slice(0, Math.max(0, amount));
  },

  takeLast: function takeLast(amount) {
    return this.slice(-Math.max(0, amount));
  },

  takeWhile: function takeWhile(predicate, context) {
    return reify(this, takeWhileFactory(this, predicate, context));
  },

  takeUntil: function takeUntil(predicate, context) {
    return this.takeWhile(not(predicate), context);
  },

  update: function update(fn) {
    return fn(this);
  },

  valueSeq: function valueSeq() {
    return this.toIndexedSeq();
  },

  // ### Hashable Object

  hashCode: function hashCode() {
    return this.__hash || (this.__hash = hashCollection(this));
  },

  // ### Internal

  // abstract __iterate(fn, reverse)

  // abstract __iterator(type, reverse)
});

var CollectionPrototype = Collection.prototype;
CollectionPrototype[IS_COLLECTION_SYMBOL] = true;
CollectionPrototype[ITERATOR_SYMBOL] = CollectionPrototype.values;
CollectionPrototype.toJSON = CollectionPrototype.toArray;
CollectionPrototype.__toStringMapper = quoteString;
CollectionPrototype.inspect = CollectionPrototype.toSource = function () {
  return this.toString();
};
CollectionPrototype.chain = CollectionPrototype.flatMap;
CollectionPrototype.contains = CollectionPrototype.includes;

mixin(KeyedCollection, {
  // ### More sequential methods

  flip: function flip() {
    return reify(this, flipFactory(this));
  },

  mapEntries: function mapEntries(mapper, context) {
    var this$1$1 = this;

    var iterations = 0;
    return reify(
      this,
      this.toSeq()
        .map(function (v, k) { return mapper.call(context, [k, v], iterations++, this$1$1); })
        .fromEntrySeq()
    );
  },

  mapKeys: function mapKeys(mapper, context) {
    var this$1$1 = this;

    return reify(
      this,
      this.toSeq()
        .flip()
        .map(function (k, v) { return mapper.call(context, k, v, this$1$1); })
        .flip()
    );
  },
});

var KeyedCollectionPrototype = KeyedCollection.prototype;
KeyedCollectionPrototype[IS_KEYED_SYMBOL] = true;
KeyedCollectionPrototype[ITERATOR_SYMBOL] = CollectionPrototype.entries;
KeyedCollectionPrototype.toJSON = toObject;
KeyedCollectionPrototype.__toStringMapper = function (v, k) { return quoteString(k) + ': ' + quoteString(v); };

mixin(IndexedCollection, {
  // ### Conversion to other types

  toKeyedSeq: function toKeyedSeq() {
    return new ToKeyedSequence(this, false);
  },

  // ### ES6 Collection methods (ES6 Array and Map)

  filter: function filter(predicate, context) {
    return reify(this, filterFactory(this, predicate, context, false));
  },

  findIndex: function findIndex(predicate, context) {
    var entry = this.findEntry(predicate, context);
    return entry ? entry[0] : -1;
  },

  indexOf: function indexOf(searchValue) {
    var key = this.keyOf(searchValue);
    return key === undefined ? -1 : key;
  },

  lastIndexOf: function lastIndexOf(searchValue) {
    var key = this.lastKeyOf(searchValue);
    return key === undefined ? -1 : key;
  },

  reverse: function reverse() {
    return reify(this, reverseFactory(this, false));
  },

  slice: function slice(begin, end) {
    return reify(this, sliceFactory(this, begin, end, false));
  },

  splice: function splice(index, removeNum /*, ...values*/) {
    var numArgs = arguments.length;
    removeNum = Math.max(removeNum || 0, 0);
    if (numArgs === 0 || (numArgs === 2 && !removeNum)) {
      return this;
    }
    // If index is negative, it should resolve relative to the size of the
    // collection. However size may be expensive to compute if not cached, so
    // only call count() if the number is in fact negative.
    index = resolveBegin(index, index < 0 ? this.count() : this.size);
    var spliced = this.slice(0, index);
    return reify(
      this,
      numArgs === 1
        ? spliced
        : spliced.concat(arrCopy(arguments, 2), this.slice(index + removeNum))
    );
  },

  // ### More collection methods

  findLastIndex: function findLastIndex(predicate, context) {
    var entry = this.findLastEntry(predicate, context);
    return entry ? entry[0] : -1;
  },

  first: function first(notSetValue) {
    return this.get(0, notSetValue);
  },

  flatten: function flatten(depth) {
    return reify(this, flattenFactory(this, depth, false));
  },

  get: function get(index, notSetValue) {
    index = wrapIndex(this, index);
    return index < 0 ||
      this.size === Infinity ||
      (this.size !== undefined && index > this.size)
      ? notSetValue
      : this.find(function (_, key) { return key === index; }, undefined, notSetValue);
  },

  has: function has(index) {
    index = wrapIndex(this, index);
    return (
      index >= 0 &&
      (this.size !== undefined
        ? this.size === Infinity || index < this.size
        : this.indexOf(index) !== -1)
    );
  },

  interpose: function interpose(separator) {
    return reify(this, interposeFactory(this, separator));
  },

  interleave: function interleave(/*...collections*/) {
    var collections = [this].concat(arrCopy(arguments));
    var zipped = zipWithFactory(this.toSeq(), IndexedSeq.of, collections);
    var interleaved = zipped.flatten(true);
    if (zipped.size) {
      interleaved.size = zipped.size * collections.length;
    }
    return reify(this, interleaved);
  },

  keySeq: function keySeq() {
    return Range(0, this.size);
  },

  last: function last(notSetValue) {
    return this.get(-1, notSetValue);
  },

  skipWhile: function skipWhile(predicate, context) {
    return reify(this, skipWhileFactory(this, predicate, context, false));
  },

  zip: function zip(/*, ...collections */) {
    var collections = [this].concat(arrCopy(arguments));
    return reify(this, zipWithFactory(this, defaultZipper, collections));
  },

  zipAll: function zipAll(/*, ...collections */) {
    var collections = [this].concat(arrCopy(arguments));
    return reify(this, zipWithFactory(this, defaultZipper, collections, true));
  },

  zipWith: function zipWith(zipper /*, ...collections */) {
    var collections = arrCopy(arguments);
    collections[0] = this;
    return reify(this, zipWithFactory(this, zipper, collections));
  },
});

var IndexedCollectionPrototype = IndexedCollection.prototype;
IndexedCollectionPrototype[IS_INDEXED_SYMBOL] = true;
IndexedCollectionPrototype[IS_ORDERED_SYMBOL] = true;

mixin(SetCollection, {
  // ### ES6 Collection methods (ES6 Array and Map)

  get: function get(value, notSetValue) {
    return this.has(value) ? value : notSetValue;
  },

  includes: function includes(value) {
    return this.has(value);
  },

  // ### More sequential methods

  keySeq: function keySeq() {
    return this.valueSeq();
  },
});

var SetCollectionPrototype = SetCollection.prototype;
SetCollectionPrototype.has = CollectionPrototype.includes;
SetCollectionPrototype.contains = SetCollectionPrototype.includes;
SetCollectionPrototype.keys = SetCollectionPrototype.values;

// Mixin subclasses

mixin(KeyedSeq, KeyedCollectionPrototype);
mixin(IndexedSeq, IndexedCollectionPrototype);
mixin(SetSeq, SetCollectionPrototype);

// #pragma Helper functions

function reduce(collection, reducer, reduction, context, useFirst, reverse) {
  assertNotInfinite(collection.size);
  collection.__iterate(function (v, k, c) {
    if (useFirst) {
      useFirst = false;
      reduction = v;
    } else {
      reduction = reducer.call(context, reduction, v, k, c);
    }
  }, reverse);
  return reduction;
}

function keyMapper(v, k) {
  return k;
}

function entryMapper(v, k) {
  return [k, v];
}

function not(predicate) {
  return function () {
    return !predicate.apply(this, arguments);
  };
}

function neg(predicate) {
  return function () {
    return -predicate.apply(this, arguments);
  };
}

function defaultZipper() {
  return arrCopy(arguments);
}

function defaultNegComparator(a, b) {
  return a < b ? 1 : a > b ? -1 : 0;
}

function hashCollection(collection) {
  if (collection.size === Infinity) {
    return 0;
  }
  var ordered = isOrdered(collection);
  var keyed = isKeyed(collection);
  var h = ordered ? 1 : 0;
  var size = collection.__iterate(
    keyed
      ? ordered
        ? function (v, k) {
            h = (31 * h + hashMerge(hash(v), hash(k))) | 0;
          }
        : function (v, k) {
            h = (h + hashMerge(hash(v), hash(k))) | 0;
          }
      : ordered
      ? function (v) {
          h = (31 * h + hash(v)) | 0;
        }
      : function (v) {
          h = (h + hash(v)) | 0;
        }
  );
  return murmurHashOfSize(size, h);
}

function murmurHashOfSize(size, h) {
  h = imul(h, 0xcc9e2d51);
  h = imul((h << 15) | (h >>> -15), 0x1b873593);
  h = imul((h << 13) | (h >>> -13), 5);
  h = ((h + 0xe6546b64) | 0) ^ size;
  h = imul(h ^ (h >>> 16), 0x85ebca6b);
  h = imul(h ^ (h >>> 13), 0xc2b2ae35);
  h = smi(h ^ (h >>> 16));
  return h;
}

function hashMerge(a, b) {
  return (a ^ (b + 0x9e3779b9 + (a << 6) + (a >> 2))) | 0; // int
}

var OrderedSet = /*@__PURE__*/(function (Set) {
  function OrderedSet(value) {
    return value === undefined || value === null
      ? emptyOrderedSet()
      : isOrderedSet(value)
      ? value
      : emptyOrderedSet().withMutations(function (set) {
          var iter = SetCollection(value);
          assertNotInfinite(iter.size);
          iter.forEach(function (v) { return set.add(v); });
        });
  }

  if ( Set ) OrderedSet.__proto__ = Set;
  OrderedSet.prototype = Object.create( Set && Set.prototype );
  OrderedSet.prototype.constructor = OrderedSet;

  OrderedSet.of = function of (/*...values*/) {
    return this(arguments);
  };

  OrderedSet.fromKeys = function fromKeys (value) {
    return this(KeyedCollection(value).keySeq());
  };

  OrderedSet.prototype.toString = function toString () {
    return this.__toString('OrderedSet {', '}');
  };

  return OrderedSet;
}(Set));

OrderedSet.isOrderedSet = isOrderedSet;

var OrderedSetPrototype = OrderedSet.prototype;
OrderedSetPrototype[IS_ORDERED_SYMBOL] = true;
OrderedSetPrototype.zip = IndexedCollectionPrototype.zip;
OrderedSetPrototype.zipWith = IndexedCollectionPrototype.zipWith;
OrderedSetPrototype.zipAll = IndexedCollectionPrototype.zipAll;

OrderedSetPrototype.__empty = emptyOrderedSet;
OrderedSetPrototype.__make = makeOrderedSet;

function makeOrderedSet(map, ownerID) {
  var set = Object.create(OrderedSetPrototype);
  set.size = map ? map.size : 0;
  set._map = map;
  set.__ownerID = ownerID;
  return set;
}

var EMPTY_ORDERED_SET;
function emptyOrderedSet() {
  return (
    EMPTY_ORDERED_SET || (EMPTY_ORDERED_SET = makeOrderedSet(emptyOrderedMap()))
  );
}

function throwOnInvalidDefaultValues(defaultValues) {
  if (isRecord(defaultValues)) {
    throw new Error(
      'Can not call `Record` with an immutable Record as default values. Use a plain javascript object instead.'
    );
  }

  if (isImmutable(defaultValues)) {
    throw new Error(
      'Can not call `Record` with an immutable Collection as default values. Use a plain javascript object instead.'
    );
  }

  if (defaultValues === null || typeof defaultValues !== 'object') {
    throw new Error(
      'Can not call `Record` with a non-object as default values. Use a plain javascript object instead.'
    );
  }
}

var Record = function Record(defaultValues, name) {
  var hasInitialized;

  throwOnInvalidDefaultValues(defaultValues);

  var RecordType = function Record(values) {
    var this$1$1 = this;

    if (values instanceof RecordType) {
      return values;
    }
    if (!(this instanceof RecordType)) {
      return new RecordType(values);
    }
    if (!hasInitialized) {
      hasInitialized = true;
      var keys = Object.keys(defaultValues);
      var indices = (RecordTypePrototype._indices = {});
      // Deprecated: left to attempt not to break any external code which
      // relies on a ._name property existing on record instances.
      // Use Record.getDescriptiveName() instead
      RecordTypePrototype._name = name;
      RecordTypePrototype._keys = keys;
      RecordTypePrototype._defaultValues = defaultValues;
      for (var i = 0; i < keys.length; i++) {
        var propName = keys[i];
        indices[propName] = i;
        if (RecordTypePrototype[propName]) {
          /* eslint-disable no-console */
          typeof console === 'object' &&
            console.warn &&
            console.warn(
              'Cannot define ' +
                recordName(this) +
                ' with property "' +
                propName +
                '" since that property name is part of the Record API.'
            );
          /* eslint-enable no-console */
        } else {
          setProp(RecordTypePrototype, propName);
        }
      }
    }
    this.__ownerID = undefined;
    this._values = List().withMutations(function (l) {
      l.setSize(this$1$1._keys.length);
      KeyedCollection(values).forEach(function (v, k) {
        l.set(this$1$1._indices[k], v === this$1$1._defaultValues[k] ? undefined : v);
      });
    });
    return this;
  };

  var RecordTypePrototype = (RecordType.prototype =
    Object.create(RecordPrototype));
  RecordTypePrototype.constructor = RecordType;

  if (name) {
    RecordType.displayName = name;
  }

  return RecordType;
};

Record.prototype.toString = function toString () {
  var str = recordName(this) + ' { ';
  var keys = this._keys;
  var k;
  for (var i = 0, l = keys.length; i !== l; i++) {
    k = keys[i];
    str += (i ? ', ' : '') + k + ': ' + quoteString(this.get(k));
  }
  return str + ' }';
};

Record.prototype.equals = function equals (other) {
  return (
    this === other ||
    (isRecord(other) && recordSeq(this).equals(recordSeq(other)))
  );
};

Record.prototype.hashCode = function hashCode () {
  return recordSeq(this).hashCode();
};

// @pragma Access

Record.prototype.has = function has (k) {
  return this._indices.hasOwnProperty(k);
};

Record.prototype.get = function get (k, notSetValue) {
  if (!this.has(k)) {
    return notSetValue;
  }
  var index = this._indices[k];
  var value = this._values.get(index);
  return value === undefined ? this._defaultValues[k] : value;
};

// @pragma Modification

Record.prototype.set = function set (k, v) {
  if (this.has(k)) {
    var newValues = this._values.set(
      this._indices[k],
      v === this._defaultValues[k] ? undefined : v
    );
    if (newValues !== this._values && !this.__ownerID) {
      return makeRecord(this, newValues);
    }
  }
  return this;
};

Record.prototype.remove = function remove (k) {
  return this.set(k);
};

Record.prototype.clear = function clear () {
  var newValues = this._values.clear().setSize(this._keys.length);

  return this.__ownerID ? this : makeRecord(this, newValues);
};

Record.prototype.wasAltered = function wasAltered () {
  return this._values.wasAltered();
};

Record.prototype.toSeq = function toSeq () {
  return recordSeq(this);
};

Record.prototype.toJS = function toJS$1 () {
  return toJS(this);
};

Record.prototype.entries = function entries () {
  return this.__iterator(ITERATE_ENTRIES);
};

Record.prototype.__iterator = function __iterator (type, reverse) {
  return recordSeq(this).__iterator(type, reverse);
};

Record.prototype.__iterate = function __iterate (fn, reverse) {
  return recordSeq(this).__iterate(fn, reverse);
};

Record.prototype.__ensureOwner = function __ensureOwner (ownerID) {
  if (ownerID === this.__ownerID) {
    return this;
  }
  var newValues = this._values.__ensureOwner(ownerID);
  if (!ownerID) {
    this.__ownerID = ownerID;
    this._values = newValues;
    return this;
  }
  return makeRecord(this, newValues, ownerID);
};

Record.isRecord = isRecord;
Record.getDescriptiveName = recordName;
var RecordPrototype = Record.prototype;
RecordPrototype[IS_RECORD_SYMBOL] = true;
RecordPrototype[DELETE] = RecordPrototype.remove;
RecordPrototype.deleteIn = RecordPrototype.removeIn = deleteIn;
RecordPrototype.getIn = getIn;
RecordPrototype.hasIn = CollectionPrototype.hasIn;
RecordPrototype.merge = merge$1;
RecordPrototype.mergeWith = mergeWith$1;
RecordPrototype.mergeIn = mergeIn;
RecordPrototype.mergeDeep = mergeDeep;
RecordPrototype.mergeDeepWith = mergeDeepWith;
RecordPrototype.mergeDeepIn = mergeDeepIn;
RecordPrototype.setIn = setIn;
RecordPrototype.update = update;
RecordPrototype.updateIn = updateIn;
RecordPrototype.withMutations = withMutations;
RecordPrototype.asMutable = asMutable;
RecordPrototype.asImmutable = asImmutable;
RecordPrototype[ITERATOR_SYMBOL] = RecordPrototype.entries;
RecordPrototype.toJSON = RecordPrototype.toObject =
  CollectionPrototype.toObject;
RecordPrototype.inspect = RecordPrototype.toSource = function () {
  return this.toString();
};

function makeRecord(likeRecord, values, ownerID) {
  var record = Object.create(Object.getPrototypeOf(likeRecord));
  record._values = values;
  record.__ownerID = ownerID;
  return record;
}

function recordName(record) {
  return record.constructor.displayName || record.constructor.name || 'Record';
}

function recordSeq(record) {
  return keyedSeqFromValue(record._keys.map(function (k) { return [k, record.get(k)]; }));
}

function setProp(prototype, name) {
  try {
    Object.defineProperty(prototype, name, {
      get: function () {
        return this.get(name);
      },
      set: function (value) {
        invariant(this.__ownerID, 'Cannot set on an immutable record.');
        this.set(name, value);
      },
    });
  } catch (error) {
    // Object.defineProperty failed. Probably IE8.
  }
}

/**
 * Returns a lazy Seq of `value` repeated `times` times. When `times` is
 * undefined, returns an infinite sequence of `value`.
 */
var Repeat = /*@__PURE__*/(function (IndexedSeq) {
  function Repeat(value, times) {
    if (!(this instanceof Repeat)) {
      return new Repeat(value, times);
    }
    this._value = value;
    this.size = times === undefined ? Infinity : Math.max(0, times);
    if (this.size === 0) {
      if (EMPTY_REPEAT) {
        return EMPTY_REPEAT;
      }
      EMPTY_REPEAT = this;
    }
  }

  if ( IndexedSeq ) Repeat.__proto__ = IndexedSeq;
  Repeat.prototype = Object.create( IndexedSeq && IndexedSeq.prototype );
  Repeat.prototype.constructor = Repeat;

  Repeat.prototype.toString = function toString () {
    if (this.size === 0) {
      return 'Repeat []';
    }
    return 'Repeat [ ' + this._value + ' ' + this.size + ' times ]';
  };

  Repeat.prototype.get = function get (index, notSetValue) {
    return this.has(index) ? this._value : notSetValue;
  };

  Repeat.prototype.includes = function includes (searchValue) {
    return is(this._value, searchValue);
  };

  Repeat.prototype.slice = function slice (begin, end) {
    var size = this.size;
    return wholeSlice(begin, end, size)
      ? this
      : new Repeat(
          this._value,
          resolveEnd(end, size) - resolveBegin(begin, size)
        );
  };

  Repeat.prototype.reverse = function reverse () {
    return this;
  };

  Repeat.prototype.indexOf = function indexOf (searchValue) {
    if (is(this._value, searchValue)) {
      return 0;
    }
    return -1;
  };

  Repeat.prototype.lastIndexOf = function lastIndexOf (searchValue) {
    if (is(this._value, searchValue)) {
      return this.size;
    }
    return -1;
  };

  Repeat.prototype.__iterate = function __iterate (fn, reverse) {
    var size = this.size;
    var i = 0;
    while (i !== size) {
      if (fn(this._value, reverse ? size - ++i : i++, this) === false) {
        break;
      }
    }
    return i;
  };

  Repeat.prototype.__iterator = function __iterator (type, reverse) {
    var this$1$1 = this;

    var size = this.size;
    var i = 0;
    return new Iterator(function () { return i === size
        ? iteratorDone()
        : iteratorValue(type, reverse ? size - ++i : i++, this$1$1._value); }
    );
  };

  Repeat.prototype.equals = function equals (other) {
    return other instanceof Repeat
      ? is(this._value, other._value)
      : deepEqual(other);
  };

  return Repeat;
}(IndexedSeq));

var EMPTY_REPEAT;

function fromJS(value, converter) {
  return fromJSWith(
    [],
    converter || defaultConverter,
    value,
    '',
    converter && converter.length > 2 ? [] : undefined,
    { '': value }
  );
}

function fromJSWith(stack, converter, value, key, keyPath, parentValue) {
  if (
    typeof value !== 'string' &&
    !isImmutable(value) &&
    (isArrayLike(value) || hasIterator(value) || isPlainObject(value))
  ) {
    if (~stack.indexOf(value)) {
      throw new TypeError('Cannot convert circular structure to Immutable');
    }
    stack.push(value);
    keyPath && key !== '' && keyPath.push(key);
    var converted = converter.call(
      parentValue,
      key,
      Seq(value).map(function (v, k) { return fromJSWith(stack, converter, v, k, keyPath, value); }
      ),
      keyPath && keyPath.slice()
    );
    stack.pop();
    keyPath && keyPath.pop();
    return converted;
  }
  return value;
}

function defaultConverter(k, v) {
  // Effectively the opposite of "Collection.toSeq()"
  return isIndexed(v) ? v.toList() : isKeyed(v) ? v.toMap() : v.toSet();
}

var version = "4.2.1";

var Immutable = {
  version: version,

  Collection: Collection,
  // Note: Iterable is deprecated
  Iterable: Collection,

  Seq: Seq,
  Map: Map,
  OrderedMap: OrderedMap,
  List: List,
  Stack: Stack,
  Set: Set,
  OrderedSet: OrderedSet,

  Record: Record,
  Range: Range,
  Repeat: Repeat,

  is: is,
  fromJS: fromJS,
  hash: hash,

  isImmutable: isImmutable,
  isCollection: isCollection,
  isKeyed: isKeyed,
  isIndexed: isIndexed,
  isAssociative: isAssociative,
  isOrdered: isOrdered,
  isValueObject: isValueObject,
  isPlainObject: isPlainObject,
  isSeq: isSeq,
  isList: isList,
  isMap: isMap,
  isOrderedMap: isOrderedMap,
  isStack: isStack,
  isSet: isSet,
  isOrderedSet: isOrderedSet,
  isRecord: isRecord,

  get: get,
  getIn: getIn$1,
  has: has,
  hasIn: hasIn$1,
  merge: merge,
  mergeDeep: mergeDeep$1,
  mergeWith: mergeWith,
  mergeDeepWith: mergeDeepWith$1,
  remove: remove,
  removeIn: removeIn,
  set: set,
  setIn: setIn$1,
  update: update$1,
  updateIn: updateIn$1,
};

// Note: Iterable is deprecated
var Iterable = Collection;

export default Immutable;
export { Collection, Iterable, List, Map, OrderedMap, OrderedSet, Range, Record, Repeat, Seq, Set, Stack, fromJS, get, getIn$1 as getIn, has, hasIn$1 as hasIn, hash, is, isAssociative, isCollection, isImmutable, isIndexed, isKeyed, isList, isMap, isOrdered, isOrderedMap, isOrderedSet, isPlainObject, isRecord, isSeq, isSet, isStack, isValueObject, merge, mergeDeep$1 as mergeDeep, mergeDeepWith$1 as mergeDeepWith, mergeWith, remove, removeIn, set, setIn$1 as setIn, update$1 as update, updateIn$1 as updateIn, version };

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