Javascript closure _ javascript tips-js tutorial

Source: Internet
Author: User
A closure is an expression (usually a function) that has many variables and is bound to these variables. Therefore, these variables are part of the expression, this article will give you a deep understanding of the concept of Javascript closures in popular languages. For beginners, it is still difficult to understand the Javascript closure (closure). The purpose of writing this article is to use the most popular words to uncover the true face of the Javascript closure, it makes it easier for beginners to understand.
1. What is a closure?
The official explanation is that a closure is an expression (usually a function) with many variables and an environment bound to these variables. Therefore, these variables are part of the expression. I believe that few people can directly understand this sentence, because he described it too academic.
In fact, all functions in JavaScript are closures. But in general, nested functions produce more powerful closures, which are also called "closures" in most cases ". See the following code:

The Code is as follows:


Function (){
Var I = 0;
Function B (){
Alert (++ I );
}
Return B;
}
Var c = ();
C ();


This code has two features:
1. function B is nested in function.
2. function a Returns function B.
In this way, after var c = a () is executed, variable c actually points to function B, variable I is used in B, and then c () is executed () then a window will pop up showing the I value (the first time is 1 ). This Code actually creates a closure. Why? Because variable c outside function a references function B in function a, that is:
When function a's internal function B is referenced by a variable outside function a, a closure is created ". Let's be more thorough. The so-called "closure" refers to defining another function in the constructor as the method function of the target object, and the method function of this object references temporary variables in the outer function body in turn.
This allows the target object to indirectly retain the temporary variable value used by the original constructor as long as it can maintain its method throughout the lifetime. Although the call to the initial constructor has ended, the name of the Temporary Variable disappears, but the value of the variable can always be referenced in the method of the target object, this value can only be accessed in this way.
Even if the same constructor is called again, only new objects and methods are generated. The new temporary variables only correspond to new values, which are independent of those called last time. To better understand closures, let's continue to explore the functions and effects of closures.
2. What are the functions and effects of closures?
In short, the function of the closure is that after a executes and returns, the closure makes the garbage collection mechanism of Javascript GC not to reclaim the resources occupied by, because the execution of the internal function B of a depends on the variables in. This is a straightforward description of the function of the closure, which is neither professional nor rigorous, but probably means that the process of understanding the closure needs to be gradual.
In the above example, because of the existence of the closure, the I in a always exists after function a returns, so that each execution of c (), I is the value of alert after auto-increment 1. Then let's imagine another situation. If a does not return function B, the situation is completely different.
Because after a is executed, B is not returned to the external world of a, but is referenced by a. At this time, a will only be referenced by B, therefore, functions a and B are referenced by each other without being disturbed by the outside world (referenced by the outside world), and functions a and B are recycled by GC. (The garbage collection mechanism of Javascript will be described in detail later)
Iii. microview of closures
To learn more about closures and the relationship between function a and nested function B, we need to introduce several other concepts: the function execution environment (excution context), and the activity object (call object) scope and scope chain ). The process from definition to execution of function a is used as an example to describe these concepts.
1. when defining function a, the js interpreter sets the scope chain of function a to the "Environment" where a is located when defining function a. If function a is a global function, the scope chain contains only window objects.
2. When function a is executed, function a enters the corresponding execution environment (excution context ).
3. In the process of creating the execution environment, a scope attribute, that is, the scope of a, is added for a, and its value is the scope chain in step 1. That is, the scope chain of a. scope =.
4. A call object will be created in the execution environment ). An activity object is also an object with attributes, but it does not have a prototype and cannot be directly accessed through JavaScript code. After creating the activity object, add the activity object to the top of the scope chain of. In this case, the scope chain of a contains two objects: The activity object of a and the window object.
5. The next step is to add an arguments attribute to the activity object, which stores the parameters passed when calling function.
6. Finally, add the parameters of all function a and the reference of function B to the activity object of function. In this step, the definition of function B is completed. As in step 1, the scope chain of function B is set to the environment defined by B, that is, the scope of function.
At this point, the steps from definition to execution of function a are completed. At this time, a returns the reference of function B to function c, and the scope chain of function B contains the reference to the activity object of function, that is to say, B can access all variables and functions defined in. Function B is referenced by Function c, and function B is dependent on function a. Therefore, function a is not recycled by GC after return.
When function B is executed, it will be the same as the above steps. Therefore, during execution, B's scope chain contains three objects: B's activity object, a's activity object, and window object. When function B accesses a variable, the search order is:
1. First search for its own activity object. If it exists, return. If it does not exist, search for the activity object of function a until it is found.
2. If function B has a prototype object, search for its own prototype object after searching for its own activity object. This is the Variable Search Mechanism in Javascript.
3. If the entire scope chain cannot be found, undefined is returned.
This section describes two important words: function definition and execution. The scope of the function is determined when the function is defined, rather than when the function is executed (see steps 1 and 3 ). Use a piece of code to illustrate this problem:

The Code is as follows:


Function f (x ){
Var g = function () {return x ;}
Return g;
}
Var h = f (1 );
Alert (h ());


In this Code, the variable h points to the anonymous function in f (returned by g ).
◆ Assume that the scope of function h is determined by executing alert (h (), then the scope chain of function h is: h activity object-> alert activity object-> window object.
◆ Assume that the scope of function h is determined when it is defined. That is to say, the anonymous function pointed to by h has already determined the scope. During execution, the scope chain of h is: h activity Object> f activity Object> window object.
If the first hypothesis is true, the output value is undefined. If the second hypothesis is true, the output value is 1. The running result proves that the 2nd assumptions are correct, indicating that the function scope is indeed determined when the function is defined.
Iv. application scenarios of closures
1. Protect the security of variables in the function. Taking the initial example as an example, in function a, I can only access function B, but cannot access function B through other channels, thus protecting the security of I.
2. Maintain a variable in the memory. Still, for example, because of the closure, the I in function a is always in the memory, so each execution of c () will add 1 to the I self.
3. Implement JS private attributes and private methods (cannot be accessed externally) by protecting the security of variables. For more information, see http://javascript.crockford.com/private.html. Private attributes and methods cannot be accessed outside the Constructor:

The Code is as follows:


Function Constructor (...){
Var that = this;
Var membername = value;
Function membername (...){...}
}


The above three points are the most basic application scenarios of closures. Many classic cases are based on this.
V. Garbage collection mechanism of Javascript
In Javascript, if an object is no longer referenced, the object will be recycled by GC. If two objects are referenced by each other and no longer referenced by 3rd, the two objects referenced by each other will be recycled. Because function a is referenced by function B and function B is referenced by Function c outside of function a, this is why function a is not recycled after execution.
Vi. Conclusion
Understanding the closure of JavaScript is the only way to move towards a senior JavaScript programmer. Only by understanding its interpretation and running mechanism can we write safer and more elegant code.
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