Examples of implementing polymorphism in Java-javaTutorial-php.cn

Home

Java

javaTutorial

Examples of implementing polymorphism in Java

黄舟

Sep 21, 2017 am 10:04 AM

javaExampleaccomplish

This article mainly introduces the implementation of polymorphism in Java. What is polymorphism? A simple question will help you understand Java polymorphism, which has certain reference value. Interested friends can refer to

What is polymorphism

The three major characteristics of object-oriented: encapsulation, inheritance, and polymorphism. From a certain perspective, encapsulation and inheritance are almost always prepared for polymorphism. This is our last concept and the most important knowledge point.
The definition of polymorphism: refers to allowing objects of different types to respond to the same message. That is, the same message can behave in many different ways depending on the person to whom it is sent. (Sending a message is a function call)
The technology to achieve polymorphism is called: dynamic binding (dynamic binding), which refers to judging the actual type of the referenced object during execution, and based on its The actual type calls its corresponding method.
The role of polymorphism: eliminate the coupling relationship between types.
In reality, there are countless examples of polymorphism. For example, if you press the F1 key, the AS 3 help document will pop up under the Flash interface; the Word Help will pop up under Word; and the Windows Help and Support will pop up under Windows. The same event occurring on different objects will produce different results.

The following are the three necessary conditions for the existence of polymorphism, and everyone is required to recite them when dreaming!

Three necessary conditions for the existence of polymorphism

1. There must be inheritance;
2. There must be overriding;
3. The parent class reference points to the subclass object.

The benefits of polymorphism:

1. Substitutability. Polymorphism enables replacement of existing code. For example, polymorphism works for the Circle class, but it also works for any other circular geometry, such as a torus.

2. Extensibility. Polymorphism makes code extensible. Adding new subclasses does not affect the polymorphism, inheritance, and operation and operation of other features of existing classes. In fact, it is easier to add new subclasses to obtain polymorphic functions. For example, after realizing the polymorphism of cones, semi-cones and hemispheres, it is easy to add the polymorphism of sphere class.

3. Interface-ability. Polymorphism is achieved by the superclass providing a common interface to subclasses through method signatures, and the subclasses completing or overriding it. As shown in Figure 8.3. The super class Shape in the figure specifies two interface methods that implement polymorphism, computeArea() and computeVolume(). Subclasses, such as Circle and Sphere, improve or override these two interface methods in order to achieve polymorphism.

4. Flexibility. It embodies flexible and diverse operations in applications and improves usage efficiency.

5. Simplicity. Polymorphism simplifies the code writing and modification process of application software. This feature is particularly prominent and important when dealing with calculations and operations on a large number of objects.

The implementation method of polymorphism in Java: interface implementation, inheriting the parent class for method rewriting, and method overloading in the same class.

A small question:

(1) Related classes

class A ...{ 
  public String show(D obj)...{ 
  return ("A and D"); 
  } 
  public String show(A obj)...{ 
  return ("A and A"); 
  } 
} 
class B extends A...{ 
  public String show(B obj)...{ 
  return ("B and B"); 
  } 
  public String show(A obj)...{ 
  return ("B and A"); 
  } 
} 
class C extends B...{} 
class D extends B...{}

(2) Question: The following output what's the result?

A a1 = new A(); 
  A a2 = new B(); 
  B b = new B(); 
  C c = new C(); 
  D d = new D(); 
  System.out.println(a1.show(b)); ① 
  System.out.println(a1.show(c)); ② 
  System.out.println(a1.show(d)); ③ 
  System.out.println(a2.show(b)); ④ 
  System.out.println(a2.show(c)); ⑤ 
  System.out.println(a2.show(d)); ⑥ 
  System.out.println(b.show(b)); ⑦ 
  System.out.println(b.show(c)); ⑧ 
  System.out.println(b.show(d)); ⑨

(3) Answer

① A and A
② A and A
③ A and D
④ B and A
⑤ B and A
⑥ A and D
⑦ B and B
⑧ B and B
⑨ A and D

The above is the detailed content of Examples of implementing polymorphism in Java. For more information, please follow other related articles on the PHP Chinese website!

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

What are some strategies for mitigating platform-specific issues in Java applications?May 01, 2025 am 12:20 AM

How does Java alleviate platform-specific problems? Java implements platform-independent through JVM and standard libraries. 1) Use bytecode and JVM to abstract the operating system differences; 2) The standard library provides cross-platform APIs, such as Paths class processing file paths, and Charset class processing character encoding; 3) Use configuration files and multi-platform testing in actual projects for optimization and debugging.

What is the relationship between Java's platform independence and microservices architecture?May 01, 2025 am 12:16 AM

Java'splatformindependenceenhancesmicroservicesarchitecturebyofferingdeploymentflexibility,consistency,scalability,andportability.1)DeploymentflexibilityallowsmicroservicestorunonanyplatformwithaJVM.2)Consistencyacrossservicessimplifiesdevelopmentand

How does GraalVM relate to Java's platform independence goals?May 01, 2025 am 12:14 AM

GraalVM enhances Java's platform independence in three ways: 1. Cross-language interoperability, allowing Java to seamlessly interoperate with other languages; 2. Independent runtime environment, compile Java programs into local executable files through GraalVMNativeImage; 3. Performance optimization, Graal compiler generates efficient machine code to improve the performance and consistency of Java programs.

How do you test Java applications for platform compatibility?May 01, 2025 am 12:09 AM

ToeffectivelytestJavaapplicationsforplatformcompatibility,followthesesteps:1)SetupautomatedtestingacrossmultipleplatformsusingCItoolslikeJenkinsorGitHubActions.2)ConductmanualtestingonrealhardwaretocatchissuesnotfoundinCIenvironments.3)Checkcross-pla

What is the role of the Java compiler (javac) in achieving platform independence?May 01, 2025 am 12:06 AM

The Java compiler realizes Java's platform independence by converting source code into platform-independent bytecode, allowing Java programs to run on any operating system with JVM installed.

What are the advantages of using bytecode over native code for platform independence?Apr 30, 2025 am 12:24 AM

Bytecodeachievesplatformindependencebybeingexecutedbyavirtualmachine(VM),allowingcodetorunonanyplatformwiththeappropriateVM.Forexample,JavabytecodecanrunonanydevicewithaJVM,enabling"writeonce,runanywhere"functionality.Whilebytecodeoffersenh

Is Java truly 100% platform-independent? Why or why not?Apr 30, 2025 am 12:18 AM

Java cannot achieve 100% platform independence, but its platform independence is implemented through JVM and bytecode to ensure that the code runs on different platforms. Specific implementations include: 1. Compilation into bytecode; 2. Interpretation and execution of JVM; 3. Consistency of the standard library. However, JVM implementation differences, operating system and hardware differences, and compatibility of third-party libraries may affect its platform independence.

How does Java's platform independence support code maintainability?Apr 30, 2025 am 12:15 AM

Java realizes platform independence through "write once, run everywhere" and improves code maintainability: 1. High code reuse and reduces duplicate development; 2. Low maintenance cost, only one modification is required; 3. High team collaboration efficiency is high, convenient for knowledge sharing.

See all articles