Usage of this keyword in java: 1. Call the attributes in this class, that is, the member variables in the class; 2. Call other methods in this class; 3. Call other constructors in this class , it needs to be placed in the first line of the constructor when called.
This keyword has three main applications:
this calls the attributes in this class, which is the member variables in the class;
This calls other methods in this class;
This calls other constructors in this class. The call should be placed in the first line of the constructor.
Calling member variables
(Recommended tutorial: java course)
It will be more specific when combined with the code. Refer to the following code:
public class Student{
String name;
private void SetName(String name){
this.name = name;
}
}In this code, a class Student is created, with a member variable name and a member method SetName (String name). Since the formal parameter name received by the member method is the same as the member The variables are the same, both are names, so you can use the this keyword here to call member variables in this class. Its function can be simply understood as follows: the this keyword is to call the member variables in this class.
But such a simple understanding is not accurate. This is actually a reference to the current class object. The member variables of the object are accessed through the reference to the object instantiated by this class.
Note:
This keyword is not subject to access permission control when accessing member variables and member functions of a class. It can access all member variables and methods in this class, including private member variables. and methods. You can also access static members of this class through this. However, since static members can be directly accessed through the class name, if you access through this, there will be a warning message "The static field ××× should be accessed in a static way". This cannot be used within a static member of a class or within a static block.
Calling member methods
You can refer to the following code:
package Test;
public class ThisTest {
String name;
private void setName(String name) {
this.name = name;
System.out.println("setName: " + this.name);
}
private void thisTest(String name) {
this.setName(name);
System.out.println("thisTest: " + this.name);
}
public static void main(String[] args) {
ThisTest tt = new ThisTest();
tt.setName("Yida");
tt.thisTest("Jenny");
}
}In this code, the Test class is first created. This class is no different from the previous one, except that a Member method thisTest(), in this member method, the previous member function setName() is called through the this keyword. The program running result is as follows:
setName: Yida setName: Jenny thisTest: Jenny
Call the constructor
Construction A method is automatically called when an object of a class is created through the new keyword. It cannot be called through the method name (that is, the class name) like other methods in the program. But if a class has multiple constructors, you can call other constructors through this (paras...) in one constructor.
Using this to call other constructors has the following constraints:
You can only call other constructors through this in the constructor, and cannot use it in ordinary methods.
The constructor cannot be called recursively through this, that is, the constructor itself cannot be called directly or indirectly through this in a constructor.
Calling other constructors through this must be executed in the first line of the constructor.
Since super calls the constructor of the parent class must also be executed in the first line of the constructor, therefore, calling the constructor through this and super cannot appear in the same constructor at the same time. You cannot call different constructors multiple times in one constructor.
The following code is wrong because a recursive call is formed through the this keyword:
//錯誤的示例?。。?class test {
test() {
this(1);
}
test(int a){
this();
}
tes int b) {
this(1, 2);
}
}The correct usage is as follows:
public class Student { //定義一個類,類的名字為student。
public Student() { //定義一個方法,名字與類相同故為構造方法
this(“Hello!”);
}
public Student(String name) { //定義一個帶形式參數(shù)的構造方法
}
}Return the value of the object
In addition to referencing variables or member methods, this keyword also has an important role in returning a reference to the class. For example, in code, you can use return this to return a reference to a certain class. At this time, the this keyword represents the name of the class. If the code is in the student class above, then the code represents return student. It can be seen that in addition to referencing variables or member methods, the this keyword can also be used as the return value of the class. This is the most eye-catching part of the this keyword.
Related recommendations:Getting started with java
The above is the detailed content of What is the usage of this keyword in java. For more information, please follow other related articles on the PHP Chinese website!
Hot AI Tools
Undress AI Tool
Undress images for free
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
Notepad++7.3.1
Easy-to-use and free code editor
SublimeText3 Chinese version
Chinese version, very easy to use
Zend Studio 13.0.1
Powerful PHP integrated development environment
Dreamweaver CS6
Visual web development tools
SublimeText3 Mac version
God-level code editing software (SublimeText3)
Hot Topics
What is a Singleton design pattern in Java?
Jul 09, 2025 am 01:32 AM
Singleton design pattern in Java ensures that a class has only one instance and provides a global access point through private constructors and static methods, which is suitable for controlling access to shared resources. Implementation methods include: 1. Lazy loading, that is, the instance is created only when the first request is requested, which is suitable for situations where resource consumption is high and not necessarily required; 2. Thread-safe processing, ensuring that only one instance is created in a multi-threaded environment through synchronization methods or double check locking, and reducing performance impact; 3. Hungry loading, which directly initializes the instance during class loading, is suitable for lightweight objects or scenarios that can be initialized in advance; 4. Enumeration implementation, using Java enumeration to naturally support serialization, thread safety and prevent reflective attacks, is a recommended concise and reliable method. Different implementation methods can be selected according to specific needs
How to analyze a Java heap dump?
Jul 09, 2025 am 01:25 AM
Analyzing Java heap dumps is a key means to troubleshoot memory problems, especially for identifying memory leaks and performance bottlenecks. 1. Use EclipseMAT or VisualVM to open the .hprof file. MAT provides Histogram and DominatorTree views to display the object distribution from different angles; 2. sort in Histogram by number of instances or space occupied to find classes with abnormally large or large size, such as byte[], char[] or business classes; 3. View the reference chain through "ListObjects>withincoming/outgoingreferences" to determine whether it is accidentally held; 4. Use "Pathto
What is a ThreadLocal in Java?
Jul 09, 2025 am 02:25 AM
ThreadLocal is used in Java to create thread-private variables, each thread has an independent copy to avoid concurrency problems. It stores values ??through ThreadLocalMap inside the thread. Pay attention to timely cleaning when using it to prevent memory leakage. Common uses include user session management, database connections, transaction context, and log tracking. Best practices include: 1. Call remove() to clean up after use; 2. Avoid overuse; 3. InheritableThreadLocal is required for child thread inheritance; 4. Do not store large objects. The initial value can be set through initialValue() or withInitial(), and the initialization is delayed until the first get() call.
Java Optional example
Jul 12, 2025 am 02:55 AM
Optional can clearly express intentions and reduce code noise for null judgments. 1. Optional.ofNullable is a common way to deal with null objects. For example, when taking values ??from maps, orElse can be used to provide default values, so that the logic is clearer and concise; 2. Use chain calls maps to achieve nested values ??to safely avoid NPE, and automatically terminate if any link is null and return the default value; 3. Filter can be used for conditional filtering, and subsequent operations will continue to be performed only if the conditions are met, otherwise it will jump directly to orElse, which is suitable for lightweight business judgment; 4. It is not recommended to overuse Optional, such as basic types or simple logic, which will increase complexity, and some scenarios will directly return to nu.
How to fix java.io.NotSerializableException?
Jul 12, 2025 am 03:07 AM
The core workaround for encountering java.io.NotSerializableException is to ensure that all classes that need to be serialized implement the Serializable interface and check the serialization support of nested objects. 1. Add implementsSerializable to the main class; 2. Ensure that the corresponding classes of custom fields in the class also implement Serializable; 3. Use transient to mark fields that do not need to be serialized; 4. Check the non-serialized types in collections or nested objects; 5. Check which class does not implement the interface; 6. Consider replacement design for classes that cannot be modified, such as saving key data or using serializable intermediate structures; 7. Consider modifying
How to iterate over a Map in Java?
Jul 13, 2025 am 02:54 AM
There are three common methods to traverse Map in Java: 1. Use entrySet to obtain keys and values at the same time, which is suitable for most scenarios; 2. Use keySet or values to traverse keys or values respectively; 3. Use Java8's forEach to simplify the code structure. entrySet returns a Set set containing all key-value pairs, and each loop gets the Map.Entry object, suitable for frequent access to keys and values; if only keys or values are required, you can call keySet() or values() respectively, or you can get the value through map.get(key) when traversing the keys; Java 8 can use forEach((key,value)->
How to implement a caching strategy in Java (e.g., using EhCache or Caffeine)?
Jul 09, 2025 am 01:17 AM
ToimproveperformanceinJavaapplications,choosebetweenEhCacheandCaffeinebasedonyourneeds.1.Forlightweight,modernin-memorycaching,useCaffeine—setitupbyaddingthedependency,configuringacachebeanwithsizeandexpiration,andinjectingitintoservices.2.Foradvance
Python web scraping dynamic content
Jul 10, 2025 pm 12:18 PM
Dynamic web crawling can be achieved through an analysis interface or a simulated browser. 1. Use browser developer tools to view XHR/Fetch requests in the Network, find the interface that returns JSON data, and use requests to get it; 2. If the page is rendered by the front-end framework and has no independent interface, you can start the browser with Selenium and wait for the elements to be loaded and extracted; 3. In the face of the anti-crawling mechanism, headers should be added, frequency control, proxy IP should be used, and verification codes or JS rendering detection should be carried out according to the situation. Mastering these methods can effectively deal with most dynamic web crawling scenarios.
