Shallow copy and deep copy are both for reference types in JS. Shallow copy only copies the reference of the object. If the copied object changes, the original object will also change. Only deep copy is the real copy of the object
Preface
When it comes to deep and shallow copies, the first thing to mention is the data type of JavaScript. The previous article The article "Basic JavaScript Mindset - Data Type" has made it very clear, so I won't go into details here.
What you need to know is one thing: JavaScript data types are divided into basic data types and reference data types.
For the copy of basic data types, there is no difference between deep and shallow copies. What we call deep and shallow copies are for reference data types.
Shallow copy
Shallow copy means that only the reference is copied, but the real value is not copied.
const originArray = [1,2,3,4,5]; const originObj = {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}}; const cloneArray = originArray; const cloneObj = originObj; console.log(cloneArray); // [1,2,3,4,5] console.log(originObj); // {a:'a',b:'b',c:Array[3],d:{dd:'dd'}} cloneArray.push(6); cloneObj.a = {aa:'aa'}; console.log(cloneArray); // [1,2,3,4,5,6] console.log(originArray); // [1,2,3,4,5,6] console.log(cloneObj); // {a:{aa:'aa'},b:'b',c:Array[3],d:{dd:'dd'}} console.log(originArray); // {a:{aa:'aa'},b:'b',c:Array[3],d:{dd:'dd'}}
The above code is the simplest way to use the = assignment operator to implement a shallow copy. You can clearly see that with cloneArray
and cloneObj
change, originArray
and originObj
also change.
Deep copy
Deep copy is a complete copy of the target. Unlike shallow copy, which only copies a layer of references, even the value is copied.
As long as a deep copy is made, they will never interact with each other, and no one will affect anyone else.
Currently there are not many ways to implement deep copy, there are mainly two methods:
Using parse and stringify in the JSON object
Use recursion to recreate objects and assign values at each layer
JSON.stringify/parse method
Look at this first Two methods:
The JSON.stringify() method converts a JavaScript value to a JSON string.
JSON.stringify
is to convert a JavaScript value into a JSON string.
The JSON.parse() method parses a JSON string, constructing the JavaScript value or object described by the string.
JSON.parse
is to convert a JSON string Convert to a JavaScript value or object.
It’s easy to understand, it’s the conversion of JavaScript values and JSON strings.
Can it achieve deep copy? Let's try it.
const originArray = [1,2,3,4,5]; const cloneArray = JSON.parse(JSON.stringify(originArray)); console.log(cloneArray === originArray); // false const originObj = {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}}; const cloneObj = JSON.parse(JSON.stringify(originObj)); console.log(cloneObj === originObj); // false cloneObj.a = 'aa'; cloneObj.c = [1,1,1]; cloneObj.d.dd = 'doubled'; console.log(cloneObj); // {a:'aa',b:'b',c:[1,1,1],d:{dd:'doubled'}}; console.log(originObj); // {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}};
It is indeed a deep copy and very convenient. However, this method can only be applied to some simple situations. For example, the following object is not applicable:
const originObj = { name:'axuebin', sayHello:function(){ console.log('Hello World'); } } console.log(originObj); // {name: "axuebin", sayHello: ƒ} const cloneObj = JSON.parse(JSON.stringify(originObj)); console.log(cloneObj); // {name: "axuebin"}
It is found that some attributes are missing in cloneObj
. . . Why?
Found the reason on MDN:
If undefined, a function, or a symbol is encountered during conversion it is either omitted (when it is found in an object) or censored to null ( when it is found in an array). JSON.stringify can also just return undefined when passing in "pure" values like JSON.stringify(function(){}) or JSON.stringify(undefined).
undefined
, function
, symbol
will be ignored during the conversion process. . .
Understand, that is to say, if the object contains a function (very common), you cannot use this method to perform deep copy.
Recursive method
The idea of recursion is very simple. It is to implement an object creation->object assignment operation for each layer of data. Simple Rough code:
function deepClone(source){ const targetObj = source.constructor === Array ? [] : {}; // 判断复制的目标是数组还是对象 for(let keys in source){ // 遍历目标 if(source.hasOwnProperty(keys)){ if(source[keys] && typeof source[keys] === 'object'){ // 如果值是对象,就递归一下 targetObj[keys] = source[keys].constructor === Array ? [] : {}; targetObj[keys] = deepClone(source[keys]); }else{ // 如果不是,就直接赋值 targetObj[keys] = source[keys]; } } } return targetObj; }
Let’s try:
const originObj = {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}}; const cloneObj = deepClone(originObj); console.log(cloneObj === originObj); // false cloneObj.a = 'aa'; cloneObj.c = [1,1,1]; cloneObj.d.dd = 'doubled'; console.log(cloneObj); // {a:'aa',b:'b',c:[1,1,1],d:{dd:'doubled'}}; console.log(originObj); // {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}};
Okay. Then try the one with functions:
const originObj = { name:'axuebin', sayHello:function(){ console.log('Hello World'); } } console.log(originObj); // {name: "axuebin", sayHello: ƒ} const cloneObj = deepClone(originObj); console.log(cloneObj); // {name: "axuebin", sayHello: ƒ}
is also ok. Done.
Do you think this is the end? ? of course not.
Copy method in JavaScript
We know that in JavaScript, arrays have two methods, concat and slice, which can copy the original array. These two None of the methods will modify the original array, but return a modified new array.
At the same time, ES6 introduced the Object.assgn
method and... expansion operator to also copy objects.
Are they shallow copies or deep copies?
concat
The concat() method is used to merge two or more arrays. This method does not change the existing arrays, but instead returns a new array.
This method can connect two or more arrays, but it does not modify the existing array, but returns a new array.
Looking at the meaning, it looks like a deep copy. Let’s try it:
const originArray = [1,2,3,4,5]; const cloneArray = originArray.concat(); console.log(cloneArray === originArray); // false cloneArray.push(6); // [1,2,3,4,5,6] console.log(originArray); [1,2,3,4,5];
It looks like a deep copy.
Let’s consider a problem, what will happen if this object is multi-layered.
const originArray = [1,[1,2,3],{a:1}]; const cloneArray = originArray.concat(); console.log(cloneArray === originArray); // false cloneArray[1].push(4); cloneArray[2].a = 2; console.log(originArray); // [1,[1,2,3,4],{a:2}]
originArray
contains array [1,2,3]
and object {a: 1}
, if we directly modify the array and object, it will not affect originArray
, but we modify the array [1,2,3]
or object {a: 1}
, it was found that originArray
also changed.
结论:concat 只是对数组的第一层进行深拷贝。
slice
The slice() method returns a shallow copy of a portion of an array into a new array object selected from begin to end (end not included). The original array will not be modified.
解释中都直接写道是 a shallow copy 了 ~
但是,并不是!
const originArray = [1,2,3,4,5]; const cloneArray = originArray.slice(); console.log(cloneArray === originArray); // false cloneArray.push(6); // [1,2,3,4,5,6] console.log(originArray); [1,2,3,4,5];
同样地,我们试试多层的数组。
const originArray = [1,[1,2,3],{a:1}]; const cloneArray = originArray.slice(); console.log(cloneArray === originArray); // false cloneArray[1].push(4); cloneArray[2].a = 2; console.log(originArray); // [1,[1,2,3,4],{a:2}]
果然,结果和 concat 是一样的。
结论:slice 只是对数组的第一层进行深拷贝。
Object.assign()
The Object.assign() method is used to copy the values of all enumerable own properties from one or more source objects to a target object. It will return the target object.
复制复制复制。
那到底是浅拷贝还是深拷贝呢?
自己试试吧。。
结论:Object.assign() 拷贝的是属性值。假如源对象的属性值是一个指向对象的引用,它也只拷贝那个引用值。
... 展开运算符
const originArray = [1,2,3,4,5,[6,7,8]]; const originObj = {a:1,b:{bb:1}}; const cloneArray = [...originArray]; cloneArray[0] = 0; cloneArray[5].push(9); console.log(originArray); // [1,2,3,4,5,[6,7,8,9]] const cloneObj = {...originObj}; cloneObj.a = 2; cloneObj.b.bb = 2; console.log(originObj); // {a:1,b:{bb:2}}
结论:... 实现的是对象第一层的深拷贝。后面的只是拷贝的引用值。
首层浅拷贝
我们知道了,会有一种情况,就是对目标对象的第一层进行深拷贝,然后后面的是浅拷贝,可以称作“首层浅拷贝”。
我们可以自己实现一个这样的函数:
function shallowClone(source) { const targetObj = source.constructor === Array ? [] : {}; // 判断复制的目标是数组还是对象 for (let keys in source) { // 遍历目标 if (source.hasOwnProperty(keys)) { targetObj[keys] = source[keys]; } } return targetObj; }
我们来测试一下:
const originObj = {a:'a',b:'b',c:[1,2,3],d:{dd:'dd'}}; const cloneObj = shallowClone(originObj); console.log(cloneObj === originObj); // false cloneObj.a='aa'; cloneObj.c=[1,1,1]; cloneObj.d.dd='surprise';
经过上面的修改,cloneObj
不用说,肯定是 {a:'aa',b:'b',c:[1,1,1],d:{dd:'surprise'}} 了,那 originObj 呢?刚刚我们验证了 cloneObj === originObj 是 false,说明这两个对象引用地址不同啊,那应该就是修改了 cloneObj 并不影响 originObj。
console.log(cloneObj); // {a:'aa',b:'b',c:[1,1,1],d:{dd:'surprise'}} console.log(originObj); // {a:'a',b:'b',c:[1,2,3],d:{dd:'surprise'}}
What happend?
originObj 中关于 a、c都没被影响,但是 d 中的一个对象被修改了。。。说好的深拷贝呢?不是引用地址都不一样了吗?
原来是这样:
从 shallowClone 的代码中我们可以看出,我们只对第一层的目标进行了 深拷贝 ,而第二层开始的目标我们是直接利用 = 赋值操作符进行拷贝的。
so,第二层后的目标都只是复制了一个引用,也就是浅拷贝。
总结
赋值运算符 = 实现的是浅拷贝,只拷贝对象的引用值;
JavaScript 中数组和对象自带的拷贝方法都是“首层浅拷贝”;
JSON.stringify 实现的是深拷贝,但是对目标对象有要求;
若想真正意义上的深拷贝,请递归。
上面是我整理给大家的,希望今后会对大家有帮助。
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