Today we will learn about the design pattern commonly used in JavaScript-- singleton pattern
definition
ensures that there is only one instance of a class and provides a global access point to it
means that it is unique and can be accessed globally
singletons correspond to multiple cases. Generally, we create a class that can instantiate many objects, which is multiple cases, while singleton patterns can instantiate only one object. This instance object can be cached and reused.
Application scenario
when you encounter something in development, it feels like it has been reused many times. If you can cache this object and use this instance object each time, instead of recreating one object, you can use singleton mode here.
for example, in front-end page development, our login pop-up window is generally unique, no matter how many clicks, only one login pop-up window will be created. And the pop-up window should be cached, where the rendering efficiency of the page can be improved, so the login pop-up window can be created in singleton mode.
before use
We are going to create a login pop-up window
// Business logic: create a login pop-up window
function createLoginLayer(){
// create a login pop-up box
const div = document.createElement("div");
div.innerHTML = Login pop-up window;
// set the pop-up window style to invisible
div.style.display = "none";
// add a box to the page
document.body.appendChild(div);
// return to this login pop-up box
return div;
};
then bind the click event to the login button, click on it, create a pop-up window, and display it on the page.
// bind the click event to the login button
document.getElementById("loginBtn").onclick = () => {
// create a login pop-up window
const loginLayer = createLoginLayer();
// display the login pop-up window
loginLayer.style.display = "block";
};
every time you click the login button, a login pop-up window is created, which consumes a lot of resources. Our login pop-up window can be a unique, cached object, and we consider using singleton pattern to ReFactor our code
after use
use closures to implement singleton mode
// accept that the parameter is a function
function getSingle(fn) {
// define a variable to identify whether this object has been created.
let result = null;
// return a function
return function(...args) {
// form a closure and cache the result
if(result == null){
// if result==null, assign the result of the passed function fn execution to result;. Here, create a login pop-up box.
result = fn.apply(this, args)
}
// return the object result
return result
};
};
this code ensures that there is always only one login pop-up window, which means that each time you create a login pop-up window, you directly use the one you created for the first time, rather than creating a new one.
Business Logic: create a login pop-up window
function createLoginLayer(){
// create a login pop-up box
const div = document.createElement("div");
div.innerHTML = Login pop-up window;
// set the pop-up window style to invisible
div.style.display = "none";
// add a box to the page
document.body.appendChild(div);
// return to this login pop-up box
return div;
};
use singleton mode
// getSingle returns a function to create a login pop-up window
const createSingleLoginLayer = getSingle(createLoginLayer);
bind a click event to the login button
document.getElementById("loginBtn").onclick = () => {
const loginLayer = createSingleLoginLayer();
loginLayer.style.display = "block";
};
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