四.原型式继承(Object.create)
let parent4 = {
name: "parent4",
friends: ["p1", "p2", "p3"],
getName: function() {
return this.name;
}
};
let person4 = Object.create(parent4);
person4.name = "tom";
person4.friends.push("jerry");
let person5 = Object.create(parent4);
person5.friends.push("lucy");
console.log(person4.name); // tom
console.log(person4.name === person4.getName()); // true
console.log(person5.name); // parent4
console.log(person4.friends); // ["p1", "p2", "p3","jerry","lucy"]
console.log(person5.friends); // ["p1", "p2", "p3","jerry","lucy"]缺点:浅拷贝,多个实例的引用类型属性指向相同的内存
五. 寄生式继承
let parent5 = {
name: "parent5",
friends: ["p1", "p2", "p3"],
getName: function() {
return this.name;
}
};
function clone(original) {
let clone = Object.create(original);
clone.getFriends = function() {
return this.friends;
};
return clone;
}
let person5 = clone(parent5);
let person6 = clone(parent5);
person5.name = '22';
person5.friends.push(22);
console.log(person5.getName()); // parent5
console.log(person5.getFriends()); // ["p1", "p2", "p3", 22]
console.log(person6.getName()); // parent5
console.log(person6.getFriends()); // ["p1", "p2", "p3", 22]缺点:浅拷贝,多个实例的引用类型属性指向相同的内存
六.寄生组合式继承 (全场最佳)
function clone (parent, child) {
// 这里改用 Object.create 就可以减少组合继承中多进行一次构造的过程
child.prototype = Object.create(parent.prototype);
child.prototype.constructor = child;
}
function Parent6() {
this.name = 'parent6';
this.play = [1, 2, 3];
}
Parent6.prototype.getName = function () {
return this.name;
}
function Child6() {
Parent6.call(this);
this.friends = 'child5';
}
clone(Parent6, Child6);
Child6.prototype.getFriends = function () {
return this.friends;
}
let person6 = new Child6();
console.log(person6); //{friends:"child5",name:"child5",play:[1,2,3],__proto__:Parent6}
console.log(person6.getName()); // parent6
console.log(person6.getFriends()); // child5
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