常用的兼容旧环境的代码段
Object
Object.assign
if (typeof Object.assign != 'function') {
// Must be writable: true, enumerable: false, configurable: true
Object.defineProperty(Object, "assign", {
value: function assign(target, varArgs) { // .length of function is 2
'use strict';
if (target == null) { // TypeError if undefined or null
throw new TypeError('Cannot convert undefined or null to object');
}
var to = Object(target);
for (var index = 1; index < arguments.length; index++) {
var nextSource = arguments[index];
if (nextSource != null) { // Skip over if undefined or null
for (var nextKey in nextSource) {
// Avoid bugs when hasOwnProperty is shadowed
if (Object.prototype.hasOwnProperty.call(nextSource, nextKey)) {
to[nextKey] = nextSource[nextKey];
}
}
}
}
return to;
},
writable: true,
configurable: true
});
}
Object.create
if (typeof Object.create !== "function") {
Object.create = function (proto, propertiesObject) {
if (typeof proto !== 'object' && typeof proto !== 'function') {
throw new TypeError('Object prototype may only be an Object: ' + proto);
} else if (proto === null) {
throw new Error("This browser's implementation of Object.create is a shim and doesn't support 'null' as the first argument.");
}
if (typeof propertiesObject != 'undefined') throw new Error("This browser's implementation of Object.create is a shim and doesn't support a second argument.");
function F() {}
F.prototype = proto;
return new F();
};
}
Object.defineProperties
function defineProperties(obj, properties) {
function convertToDescriptor(desc) {
function hasProperty(obj, prop) {
return Object.prototype.hasOwnProperty.call(obj, prop);
}
function isCallable(v) {
// NB: modify as necessary if other values than functions are callable.
return typeof v === 'function';
}
if (typeof desc !== 'object' || desc === null)
throw new TypeError('bad desc');
var d = {};
if (hasProperty(desc, 'enumerable'))
d.enumerable = !!desc.enumerable;
if (hasProperty(desc, 'configurable'))
d.configurable = !!desc.configurable;
if (hasProperty(desc, 'value'))
d.value = desc.value;
if (hasProperty(desc, 'writable'))
d.writable = !!desc.writable;
if (hasProperty(desc, 'get')) {
var g = desc.get;
if (!isCallable(g) && typeof g !== 'undefined')
throw new TypeError('bad get');
d.get = g;
}
if (hasProperty(desc, 'set')) {
var s = desc.set;
if (!isCallable(s) && typeof s !== 'undefined')
throw new TypeError('bad set');
d.set = s;
}
if (('get' in d || 'set' in d) && ('value' in d || 'writable' in d))
throw new TypeError('identity-confused descriptor');
return d;
}
if (typeof obj !== 'object' || obj === null)
throw new TypeError('bad obj');
properties = Object(properties);
var keys = Object.keys(properties);
var descs = [];
for (var i = 0; i < keys.length; i++)
descs.push([keys[i], convertToDescriptor(properties[keys[i]])]);
for (var i = 0; i < descs.length; i++)
Object.defineProperty(obj, descs[i][0], descs[i][1]);
return obj;
}
Object.entries
if (!Object.entries)
Object.entries = function( obj ){
var ownProps = Object.keys( obj ),
i = ownProps.length,
resArray = new Array(i); // preallocate the Array
while (i--)
resArray[i] = [ownProps[i], obj[ownProps[i]]];
return resArray;
};
Object.is
if (!Object.is) {
Object.is = function(x, y) {
// SameValue algorithm
if (x === y) { // Steps 1-5, 7-10
// Steps 6.b-6.e: +0 != -0
return x !== 0 || 1 / x === 1 / y;
} else {
// Step 6.a: NaN == NaN
return x !== x && y !== y;
}
};
}
Object.keys
if (!Object.keys) {
Object.keys = (function () {
var hasOwnProperty = Object.prototype.hasOwnProperty,
hasDontEnumBug = !({toString: null}).propertyIsEnumerable('toString'),
dontEnums = [
'toString',
'toLocaleString',
'valueOf',
'hasOwnProperty',
'isPrototypeOf',
'propertyIsEnumerable',
'constructor'
],
dontEnumsLength = dontEnums.length;
return function (obj) {
if (typeof obj !== 'object' && typeof obj !== 'function' || obj === null) throw new TypeError('Object.keys called on non-object');
var result = [];
for (var prop in obj) {
if (hasOwnProperty.call(obj, prop)) result.push(prop);
}
if (hasDontEnumBug) {
for (var i=0; i < dontEnumsLength; i++) {
if (hasOwnProperty.call(obj, dontEnums[i])) result.push(dontEnums[i]);
}
}
return result;
}
})()
};
Object.values
if (!Object.values) Object.values = function(obj) {
if (obj !== Object(obj))
throw new TypeError('Object.values called on a non-object');
var val=[],key;
for (key in obj) {
if (Object.prototype.hasOwnProperty.call(obj,key)) {
val.push(obj[key]);
}
}
return val;
}
Array
Array.from
// Production steps of ECMA-262, Edition 6, 22.1.2.1
// Reference: https://people.mozilla.org/~jorendorff/es6-draft.html#sec-array.from
if (!Array.from) {
Array.from = (function () {
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);
};
// The length property of the from method is 1.
return function from(arrayLike/*, mapFn, thisArg */) {
// 1. Let C be the this value.
var C = this;
// 2. Let items be ToObject(arrayLike).
var items = Object(arrayLike);
// 3. ReturnIfAbrupt(items).
if (arrayLike == null) {
throw new TypeError("Array.from requires an array-like object - 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);
// 16. Let k be 0.
var k = 0;
// 17. Repeat, while k < len… (also steps a - h)
var kValue;
while (k < len) {
kValue = items[k];
if (mapFn) {
A[k] = typeof T === 'undefined' ? mapFn(kValue, k) : mapFn.call(T, kValue, k);
} else {
A[k] = kValue;
}
k += 1;
}
// 18. Let putStatus be Put(A, "length", len, true).
A.length = len;
// 20. Return A.
return A;
};
}());
}
Array.isArray
Array.isArray = function(arg) {
return Object.prototype.toString.call(arg) === '[object Array]';
};
}
Array.of
if (!Array.of) {
Array.of = function() {
return Array.prototype.slice.call(arguments);
};
}
Array.prototype.every
if (!Array.prototype.every)
{
Array.prototype.every = function(fun /*, thisArg */)
{
'use strict';
if (this === void 0 || this === null)
throw new TypeError();
var t = Object(this);
var len = t.length >>> 0;
if (typeof fun !== 'function')
throw new TypeError();
var thisArg = arguments.length >= 2 ? arguments[1] : void 0;
for (var i = 0; i < len; i++)
{
if (i in t && !fun.call(thisArg, t[i], i, t))
return false;
}
return true;
};
}
Array.prototype.fill
if (!Array.prototype.fill) {
Object.defineProperty(Array.prototype, 'fill', {
value: function(value) {
// Steps 1-2.
if (this == null) {
throw new TypeError('this is null or not defined');
}
var O = Object(this);
// Steps 3-5.
var len = O.length >>> 0;
// Steps 6-7.
var start = arguments[1];
var relativeStart = start >> 0;
// Step 8.
var k = relativeStart < 0 ?
Math.max(len + relativeStart, 0) :
Math.min(relativeStart, len);
// Steps 9-10.
var end = arguments[2];
var relativeEnd = end === undefined ?
len : end >> 0;
// Step 11.
var final = relativeEnd < 0 ?
Math.max(len + relativeEnd, 0) :
Math.min(relativeEnd, len);
// Step 12.
while (k < final) {
O[k] = value;
k++;
}
// Step 13.
return O;
}
});
}
Array.prototype.filter
if (!Array.prototype.filter)
{
Array.prototype.filter = function(fun /* , thisArg*/)
{
"use strict";
if (this === void 0 || this === null)
throw new TypeError();
var t = Object(this);
var len = t.length >>> 0;
if (typeof fun !== "function")
throw new TypeError();
var res = [];
var thisArg = arguments.length >= 2 ? arguments[1] : void 0;
for (var i = 0; i < len; i++)
{
if (i in t)
{
var val = t[i];
// NOTE: Technically this should Object.defineProperty at
// the next index, as push can be affected by
// properties on Object.prototype and Array.prototype.
// But that method's new, and collisions should be
// rare, so use the more-compatible alternative.
if (fun.call(thisArg, val, i, t))
res.push(val);
}
}
return res;
};
}
Array.prototype.find
// https://tc39.github.io/ecma262/#sec-array.prototype.find
if (!Array.prototype.find) {
Object.defineProperty(Array.prototype, 'find', {
value: function(predicate) {
// 1. Let O be ? ToObject(this value).
if (this == null) {
throw new TypeError('"this" is null or not defined');
}
var o = Object(this);
// 2. Let len be ? ToLength(? Get(O, "length")).
var len = o.length >>> 0;
// 3. If IsCallable(predicate) is false, throw a TypeError exception.
if (typeof predicate !== 'function') {
throw new TypeError('predicate must be a function');
}
// 4. If thisArg was supplied, let T be thisArg; else let T be undefined.
var thisArg = arguments[1];
// 5. Let k be 0.
var k = 0;
// 6. Repeat, while k < len
while (k < len) {
// a. Let Pk be ! ToString(k).
// b. Let kValue be ? Get(O, Pk).
// c. Let testResult be ToBoolean(? Call(predicate, T, « kValue, k, O »)).
// d. If testResult is true, return kValue.
var kValue = o[k];
if (predicate.call(thisArg, kValue, k, o)) {
return kValue;
}
// e. Increase k by 1.
k++;
}
// 7. Return undefined.
return undefined;
}
});
}
Array.prototype.findIndex
// https://tc39.github.io/ecma262/#sec-array.prototype.findIndex
if (!Array.prototype.findIndex) {
Object.defineProperty(Array.prototype, 'findIndex', {
value: function(predicate) {
// 1. Let O be ? ToObject(this value).
if (this == null) {
throw new TypeError('"this" is null or not defined');
}
var o = Object(this);
// 2. Let len be ? ToLength(? Get(O, "length")).
var len = o.length >>> 0;
// 3. If IsCallable(predicate) is false, throw a TypeError exception.
if (typeof predicate !== 'function') {
throw new TypeError('predicate must be a function');
}
// 4. If thisArg was supplied, let T be thisArg; else let T be undefined.
var thisArg = arguments[1];
// 5. Let k be 0.
var k = 0;
// 6. Repeat, while k < len
while (k < len) {
// a. Let Pk be ! ToString(k).
// b. Let kValue be ? Get(O, Pk).
// c. Let testResult be ToBoolean(? Call(predicate, T, « kValue, k, O »)).
// d. If testResult is true, return k.
var kValue = o[k];
if (predicate.call(thisArg, kValue, k, o)) {
return k;
}
// e. Increase k by 1.
k++;
}
// 7. Return -1.
return -1;
}
});
}
Array.prototype.forEach
// Production steps of ECMA-262, Edition 5, 15.4.4.18
// Reference: http://es5.github.io/#x15.4.4.18
if (!Array.prototype.forEach) {
Array.prototype.forEach = function(callback, thisArg) {
var T, k;
if (this == null) {
throw new TypeError(' this is null or not defined');
}
// 1. Let O be the result of calling toObject() passing the
// |this| value as the argument.
var O = Object(this);
// 2. Let lenValue be the result of calling the Get() internal
// method of O with the argument "length".
// 3. Let len be toUint32(lenValue).
var len = O.length >>> 0;
// 4. If isCallable(callback) is false, throw a TypeError exception.
// See: http://es5.github.com/#x9.11
if (typeof callback !== "function") {
throw new TypeError(callback + ' is not a function');
}
// 5. If thisArg was supplied, let T be thisArg; else let
// T be undefined.
if (arguments.length > 1) {
T = thisArg;
}
// 6. Let k be 0
k = 0;
// 7. Repeat, while k < len
while (k < len) {
var kValue;
// a. Let Pk be ToString(k).
// This is implicit for LHS operands of the in operator
// b. Let kPresent be the result of calling the HasProperty
// internal method of O with argument Pk.
// This step can be combined with c
// c. If kPresent is true, then
if (k in O) {
// i. Let kValue be the result of calling the Get internal
// method of O with argument Pk.
kValue = O[k];
// ii. Call the Call internal method of callback with T as
// the this value and argument list containing kValue, k, and O.
callback.call(T, kValue, k, O);
}
// d. Increase k by 1.
k++;
}
// 8. return undefined
};
}
Array.prototype.includes
// https://tc39.github.io/ecma262/#sec-array.prototype.includes
if (!Array.prototype.includes) {
Object.defineProperty(Array.prototype, 'includes', {
value: function(searchElement, fromIndex) {
// 1. Let O be ? ToObject(this value).
if (this == null) {
throw new TypeError('"this" is null or not defined');
}
var o = Object(this);
// 2. Let len be ? ToLength(? Get(O, "length")).
var len = o.length >>> 0;
// 3. If len is 0, return false.
if (len === 0) {
return false;
}
// 4. Let n be ? ToInteger(fromIndex).
// (If fromIndex is undefined, this step produces the value 0.)
var n = fromIndex | 0;
// 5. If n ≥ 0, then
// a. Let k be n.
// 6. Else n < 0,
// a. Let k be len + n.
// b. If k < 0, let k be 0.
var k = Math.max(n >= 0 ? n : len - Math.abs(n), 0);
// 7. Repeat, while k < len
while (k < len) {
// a. Let elementK be the result of ? Get(O, ! ToString(k)).
// b. If SameValueZero(searchElement, elementK) is true, return true.
// c. Increase k by 1.
// NOTE: === provides the correct "SameValueZero" comparison needed here.
if (o[k] === searchElement) {
return true;
}
k++;
}
// 8. Return false
return false;
}
});
}
Array.prototype.indexOf
// Production steps of ECMA-262, Edition 5, 15.4.4.14
// Reference: http://es5.github.io/#x15.4.4.14
if (!Array.prototype.indexOf) {
Array.prototype.indexOf = function(searchElement, fromIndex) {
var k;
// 1. Let O be the result of calling ToObject passing
// the this value as the argument.
if (this == null) {
throw new TypeError('"this" is null or not defined');
}
var O = Object(this);
// 2. Let lenValue be the result of calling the Get
// internal method of O with the argument "length".
// 3. Let len be ToUint32(lenValue).
var len = O.length >>> 0;
// 4. If len is 0, return -1.
if (len === 0) {
return -1;
}
// 5. If argument fromIndex was passed let n be
// ToInteger(fromIndex); else let n be 0.
var n = +fromIndex || 0;
if (Math.abs(n) === Infinity) {
n = 0;
}
// 6. If n >= len, return -1.
if (n >= len) {
return -1;
}
// 7. If n >= 0, then Let k be n.
// 8. Else, n<0, Let k be len - abs(n).
// If k is less than 0, then let k be 0.
k = Math.max(n >= 0 ? n : len - Math.abs(n), 0);
// 9. Repeat, while k < len
while (k < len) {
// a. Let Pk be ToString(k).
// This is implicit for LHS operands of the in operator
// b. Let kPresent be the result of calling the
// HasProperty internal method of O with argument Pk.
// This step can be combined with c
// c. If kPresent is true, then
// i. Let elementK be the result of calling the Get
// internal method of O with the argument ToString(k).
// ii. Let same be the result of applying the
// Strict Equality Comparison Algorithm to
// searchElement and elementK.
// iii. If same is true, return k.
if (k in O && O[k] === searchElement) {
return k;
}
k++;
}
return -1;
};
}
Array.prototype.lastIndexOf
if (!Array.prototype.lastIndexOf) {
Array.prototype.lastIndexOf = function(searchElement /*, fromIndex*/) {
'use strict';
if (this === void 0 || this === null) {
throw new TypeError();
}
var n, k,
t = Object(this),
len = t.length >>> 0;
if (len === 0) {
return -1;
}
n = len - 1;
if (arguments.length > 1) {
n = Number(arguments[1]);
if (n != n) {
n = 0;
}
else if (n != 0 && n != (1 / 0) && n != -(1 / 0)) {
n = (n > 0 || -1) * Math.floor(Math.abs(n));
}
}
for (k = n >= 0
? Math.min(n, len - 1)
: len - Math.abs(n); k >= 0; k--) {
if (k in t && t[k] === searchElement) {
return k;
}
}
return -1;
};
}
Array.prototype.map
// 实现 ECMA-262, Edition 5, 15.4.4.19
// 参考: http://es5.github.com/#x15.4.4.19
if (!Array.prototype.map) {
Array.prototype.map = function(callback, thisArg) {
var T, A, k;
if (this == null) {
throw new TypeError(" this is null or not defined");
}
// 1. 将O赋值为调用map方法的数组.
var O = Object(this);
// 2.将len赋值为数组O的长度.
var len = O.length >>> 0;
// 3.如果callback不是函数,则抛出TypeError异常.
if (Object.prototype.toString.call(callback) != "[object Function]") {
throw new TypeError(callback + " is not a function");
}
// 4. 如果参数thisArg有值,则将T赋值为thisArg;否则T为undefined.
if (thisArg) {
T = thisArg;
}
// 5. 创建新数组A,长度为原数组O长度len
A = new Array(len);
// 6. 将k赋值为0
k = 0;
// 7. 当 k < len 时,执行循环.
while(k < len) {
var kValue, mappedValue;
//遍历O,k为原数组索引
if (k in O) {
//kValue为索引k对应的值.
kValue = O[ k ];
// 执行callback,this指向T,参数有三个.分别是kValue:值,k:索引,O:原数组.
mappedValue = callback.call(T, kValue, k, O);
// 返回值添加到新数组A中.
A[ k ] = mappedValue;
}
// k自增1
k++;
}
// 8. 返回新数组A
return A;
};
}
Array.prototype.reduce
// Production steps of ECMA-262, Edition 5, 15.4.4.21
// Reference: http://es5.github.io/#x15.4.4.21
// https://tc39.github.io/ecma262/#sec-array.prototype.reduce
if (!Array.prototype.reduce) {
Object.defineProperty(Array.prototype, 'reduce', {
value: function(callback /*, initialValue*/) {
if (this === null) {
throw new TypeError( 'Array.prototype.reduce ' +
'called on null or undefined' );
}
if (typeof callback !== 'function') {
throw new TypeError( callback +
' is not a function');
}
// 1. Let O be ? ToObject(this value).
var o = Object(this);
// 2. Let len be ? ToLength(? Get(O, "length")).
var len = o.length >>> 0;
// Steps 3, 4, 5, 6, 7
var k = 0;
var value;
if (arguments.length >= 2) {
value = arguments[1];
} else {
while (k < len && !(k in o)) {
k++;
}
// 3. If len is 0 and initialValue is not present,
// throw a TypeError exception.
if (k >= len) {
throw new TypeError( 'Reduce of empty array ' +
'with no initial value' );
}
value = o[k++];
}
// 8. Repeat, while k < len
while (k < len) {
// a. Let Pk be ! ToString(k).
// b. Let kPresent be ? HasProperty(O, Pk).
// c. If kPresent is true, then
// i. Let kValue be ? Get(O, Pk).
// ii. Let accumulator be ? Call(
// callbackfn, undefined,
// « accumulator, kValue, k, O »).
if (k in o) {
value = callback(value, o[k], k, o);
}
// d. Increase k by 1.
k++;
}
// 9. Return accumulator.
return value;
}
});
}
Array.prototype.reduceRight
// Production steps of ECMA-262, Edition 5, 15.4.4.22
// Reference: http://es5.github.io/#x15.4.4.22
if ('function' !== typeof Array.prototype.reduceRight) {
Array.prototype.reduceRight = function(callback /*, initialValue*/) {
'use strict';
if (null === this || 'undefined' === typeof this) {
throw new TypeError('Array.prototype.reduce called on null or undefined');
}
if ('function' !== typeof callback) {
throw new TypeError(callback + ' is not a function');
}
var t = Object(this), len = t.length >>> 0, k = len - 1, value;
if (arguments.length >= 2) {
value = arguments[1];
} else {
while (k >= 0 && !(k in t)) {
k--;
}
if (k < 0) {
throw new TypeError('Reduce of empty array with no initial value');
}
value = t[k--];
}
for (; k >= 0; k--) {
if (k in t) {
value = callback(value, t[k], k, t);
}
}
return value;
};
}
Array.prototype.some
if (!Array.prototype.some)
{
Array.prototype.some = function(fun /*, thisArg */)
{
'use strict';
if (this === void 0 || this === null)
throw new TypeError();
var t = Object(this);
var len = t.length >>> 0;
if (typeof fun !== 'function')
throw new TypeError();
var thisArg = arguments.length >= 2 ? arguments[1] : void 0;
for (var i = 0; i < len; i++)
{
if (i in t && fun.call(thisArg, t[i], i, t))
return true;
}
return false;
};
}
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