if (!Array.from) { Array.from = (function () { var symbolIterator; try { symbolIterator = Symbol.iterator ? Symbol.iterator : 'Symbol(Symbol.iterator)'; } catch (e) { symbolIterator = 'Symbol(Symbol.iterator)'; } var toStr = Object.prototype.toString; var isCallable = function (fn) { return ( typeof fn === 'function' || toStr.call(fn) === '[object Function]' ); }; var toInteger = function (value) { var number = Number(value); if (isNaN(number)) return 0; if (number === 0 || !isFinite(number)) return number; return (number > 0 ? 1 : -1) * Math.floor(Math.abs(number)); }; var maxSafeInteger = Math.pow(2, 53) - 1; var toLength = function (value) { var len = toInteger(value); return Math.min(Math.max(len, 0), maxSafeInteger); }; var setGetItemHandler = function setGetItemHandler(isIterator, items) { var iterator = isIterator && items[symbolIterator](); return function getItem(k) { return isIterator ? iterator.next() : items[k]; }; }; var getArray = function getArray( T, A, len, getItem, isIterator, mapFn ) { // 16. Let k be 0. var k = 0; // 17. Repeat, while k < len… or while iterator is done (also steps a - h) while (k < len || isIterator) { var item = getItem(k); var kValue = isIterator ? item.value : item; if (isIterator && item.done) { return A; } else { if (mapFn) { A[k] = typeof T === 'undefined' ? mapFn(kValue, k) : mapFn.call(T, kValue, k); } else { A[k] = kValue; } } k += 1; } if (isIterator) { throw new TypeError( 'Array.from: provided arrayLike or iterator has length more then 2 ** 52 - 1' ); } else { A.length = len; } return A; }; // The length property of the from method is 1. return function from(arrayLikeOrIterator /*, mapFn, thisArg */) { // 1. Let C be the this value. var C = this; // 2. Let items be ToObject(arrayLikeOrIterator). var items = Object(arrayLikeOrIterator); var isIterator = isCallable(items[symbolIterator]); // 3. ReturnIfAbrupt(items). if (arrayLikeOrIterator == null && !isIterator) { throw new TypeError( 'Array.from requires an array-like object or iterator - not null or undefined' ); } // 4. If mapfn is undefined, then let mapping be false. var mapFn = arguments.length > 1 ? arguments[1] : void undefined; var T; if (typeof mapFn !== 'undefined') { // 5. else // 5. a If IsCallable(mapfn) is false, throw a TypeError exception. if (!isCallable(mapFn)) { throw new TypeError( 'Array.from: when provided, the second argument must be a function' ); } // 5. b. If thisArg was supplied, let T be thisArg; else let T be undefined. if (arguments.length > 2) { T = arguments[2]; } } // 10. Let lenValue be Get(items, "length"). // 11. Let len be ToLength(lenValue). var len = toLength(items.length); // 13. If IsConstructor(C) is true, then // 13. a. Let A be the result of calling the [[Construct]] internal method // of C with an argument list containing the single item len. // 14. a. Else, Let A be ArrayCreate(len). var A = isCallable(C) ? Object(new C(len)) : new Array(len); return getArray( T, A, len, setGetItemHandler(isIterator, items), isIterator, mapFn ); }; })(); }