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JavaScript 代码整洁之道

King Wang

1 月 3, 2022

整洁的代码不仅仅是让人看起来舒服,更重要的是遵循一些规范能够让你的代码更容易维护,同时降低bug几率。

1. 用命名的变量代替数组下标

// bad
const address = "One Infinite Loop, Cupertino 95014";
const cityZipCodeRegex = /^[^,\\]+[,\\\s]+(.+?)\s*(\d{5})?$/;
saveCityZipCode(
// 下标1,2不易于理解
address.match(cityZipCodeRegex)[1],
address.match(cityZipCodeRegex)[2]
);
// good
const address = "One Infinite Loop, Cupertino 95014";
const cityZipCodeRegex = /^[^,\\]+[,\\\s]+(.+?)\s*(\d{5})?$/;
// 使用数组解构更好的命名变量
const [, city, zipCode] = address.match(cityZipCodeRegex) || [];
saveCityZipCode(city, zipCode);

2. 函数的参数最好<=2个,尽量避免3个。

如果有很多参数就利用object传递,并使用解构。

3. 一个函数只做一件事。

好处在于compose, test, and reason about。

4. 不要自行扩展原型

如果想扩展原型,可以先继承再添加方法,防止污染。

// bad
Array.prototype.diff = function diff(comparisonArray) {
const hash = new Set(comparisonArray);
return this.filter(elem => !hash.has(elem));
};
// good
class SuperArray extends Array {
diff(comparisonArray) {
const hash = new Set(comparisonArray);
return this.filter(elem => !hash.has(elem));
}
}

5. 用多态来代替条件语句

// bad
if (type === 'text') {
// do something
} else if (type === 'select') {
// do something else
}

个人写这种代码的一种常用方式是:

const control = {
text: {
mapper() {},
restore(){},
name: 'this is a text field',
},
select: {
mapper() {},
restore(){},
name: 'this is a select field',
}
}
control[type].mapper();

实际上就是多态(polymorphism),也可以考虑用class的方式,大概这样:自己是个做了几年软件开发的老码农,如果你对前端开发这门技术感兴趣,我们的前端开发学习扣qun:767-273-102 从最基础的HTML+CSS+JavaScript。jQuery,Ajax,node,angular等到移动端HTML5的项目实战的资料都有整理,送给每一位学习前端的小伙伴

class Field {
...
}
class TextField extends Field {
mapper(){}
restore(){}
name = 'this is a text field';
}
class SelectField extends Field {
mapper(){}
restore(){}
name = 'this i```s a select field';
}
  1. 使用getter和setter函数。

// bad
function makeBankAccount() {
// ...
return {
balance: 0
// ...
};
}
const account = makeBankAccount();
account.balance = 100;
// good
function makeBankAccount() {
// this one is private
let balance = 0;
// a "getter", made public via the returned object below
function getBalance() {
return balance;
}
// a "setter", made public via the returned object below
function setBalance(amount) {
// ... validate before updating the balance
balance = amount;
}
return {
// ...
getBalance,
setBalance
};
}
const account = makeBankAccount();
account.setBalance(100);

你可以在getter和setter里面做很多事情而不需要修改每一个.balance的地方。

7. Prefer composition over inheritance

尽量用组合来代替继承,什么情况下用继承:

Your inheritance represents an “is-a” relationship and not a “has-a” relationship (Human->Animal vs. User->UserDetails).
You can reuse code from the base classes (Humans can move like all animals).
You want to make global changes to derived classes by changing a base class. (Change the caloric expenditure of all animals when they move).

8. SOLID

Single Responsibility Principle 单一职责原则

There should never be more than one reason for a class to change,一个类被改变的原因数量应该尽可能降低。如果一个类中功能太多,当你修改其中一点时会无法估量任何引用该类的模块所受到的影响。

Open/Closed Principle 开放封闭原则

用户可以在不修改内部实现的前提下自行扩展功能。例如有一个Http模块,内部会根据环境判断用哪个adaptor。如果用户要添加adaptor就必须修改Http模块。

// bad
class AjaxAdapter extends Adapter {
constructor() {
super();
this.name = "ajaxAdapter";
}
}
class NodeAdapter extends Adapter {
constructor() {
super();
this.name = "nodeAdapter";
}
}
class HttpRequester {
constructor(adapter) {
this.adapter = adapter;
}
fetch(url) {
if (this.adapter.name === "ajaxAdapter") {
return makeAjaxCall(url).then(response => {
// transform response and return
});
} else if (this.adapter.name === "nodeAdapter") {
return makeHttpCall(url).then(response => {
// transform response and return
});
}
}
}
function makeAjaxCall(url) {
// request and return promise
}
function makeHttpCall(url) {
// request and return promise
}
// good
class AjaxAdapter extends Adapter {
constructor() {
super();
this.name = "ajaxAdapter";
}
request(url) {
// request and return promise
}
}
class NodeAdapter extends Adapter {
constructor() {
super();
this.name = "nodeAdapter";
}
request(url) {
// request and return promise
}
}
class HttpRequester {
constructor(adapter) {
this.adapter = adapter;
}
fetch(url) {
return this.adapter.request(url).then(response => {
// transform response and return
});
}
}

Liskov Substitution Principle 里式替换原则

父类和子类应该可以被交换使用而不会出错。

// bad
class Rectangle {
constructor() {
this.width = 0;
this.height = 0;
}
setColor(color) {
// ...
}
render(area) {
// ...
}
setWidth(width) {
this.width = width;
}
setHeight(height) {
this.height = height;
}
getArea() {
return this.width * this.height;
}
}
class Square extends Rectangle {
setWidth(width) {
this.width = width;
this.height = width;
}
setHeight(height) {
this.width = height;
this.height = height;
}
}
function renderLargeRectangles(rectangles) {
rectangles.forEach(rectangle => {
rectangle.setWidth(4);
rectangle.setHeight(5);
const area = rectangle.getArea(); // BAD: Returns 25 for Square. Should be 20.
rectangle.render(area);
});
}
const rectangles = [new Rectangle(), new Rectangle(), new Square()];
renderLargeRectangles(rectangles);

上面的Rectangle不能直接替换Square,因为会导致计算面积错误,考虑将计算面积的方法抽象出来:

class Shape {
setColor(color) {
// ...
}
render(area) {
// ...
}
}
class Rectangle extends Shape {
constructor(width, height) {
super();
this.width = width;
this.height = height;
}
getArea() {
return this.width * this.height;
}
}
class Square extends Shape {
constructor(length) {
super();
this.length = length;
}
getArea() {
return this.length * this.length;
}
}
function renderLargeShapes(shapes) {
shapes.forEach(shape => {
const area = shape.getArea();
shape.render(area);
});
}
const shapes = [new Rectangle(4, 5), new Rectangle(4, 5), new Square(5)];
renderLargeShapes(shapes);

Interface Segregation Principle 接口隔离原则

Clients should not be forced to depend upon interfaces that they do not use。举例来说,一个功能模块需要设计必须传的参数和可选参数,不应该强迫用户使用可选参数。

Dependency Inversion Principle 依赖注入原则

// bad
class InventoryRequester {
constructor() {
this.REQ_METHODS = ["HTTP"];
}
requestItem(item) {
// ...
}
}
class InventoryTracker {
constructor(items) {
this.items = items;
// BAD: We have created a dependency on a specific request implementation.
// We should just have requestItems depend on a request method: `request`
this.requester = new InventoryRequester();
}
requestItems() {
this.items.forEach(item => {
this.requester.requestItem(item);
});
}
}
const inventoryTracker = new InventoryTracker(["apples", "bananas"]);
inventoryTracker.requestItems();

上面例子在于,InventoryTracker内部实例化了InventoryRequester,也就意味着high-level的模块需要知道low-level模块的细节(比如实例化InventoryRequester需要知道它的构造参数等,或者说需要import该模块,造成耦合)。

// good
class InventoryTracker {
constructor(items, requester) {
this.items = items;
this.requester = requester;
}
requestItems() {
this.items.forEach(item => {
this.requester.requestItem(item);
});
}
}
class InventoryRequesterV1 {
constructor() {
this.REQ_METHODS = ["HTTP"];
}
requestItem(item) {
// ...
}
}
class InventoryRequesterV2 {
constructor() {
this.REQ_METHODS = ["WS"];
}
requestItem(item) {
// ...
}
}
// By constructing our dependencies externally and injecting them, we can easily
// substitute our request module for a fancy new one that uses WebSockets.
const inventoryTracker = new InventoryTracker(
["apples", "bananas"],
new InventoryRequesterV2()
);
inventoryTracker.requestItems();

直接传入low-level的实例而不需要考虑它是如何被实例化的,high-level只需要依赖抽象的接口就可以完成对子模块的调用。

9. 注释

Comments are an apology, not a requirement. Good code mostly documents itself. 好的代码是自解释的。

你会经常地遇到 bug 和其它一些问题。这可能会让人沮丧,但你要尽量保持冷静,并系统地去思考。记住实践是解决问题的最佳方法。

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