Operation and MaintenanceLinux Operation and MaintenanceBasic Configuration Guide for Linux Java Development with IntelliJ IDEABasic Configuration Guide for Linux Java Development with IntelliJ IDEA
Basic configuration guide for Linux Java development using IntelliJ IDEA
Introduction:
IntelliJ IDEA is a popular Java integrated development environment (IDE). Its powerful functions and friendly user interface make Developers can write and debug Java code more efficiently. This article will introduce how to perform basic configuration of IntelliJ IDEA under the Linux operating system in order to develop Java projects.
1. Install IntelliJ IDEA
First, we need to install IntelliJ IDEA on the Linux system. The latest version of IntelliJ IDEA can be downloaded and installed from the official website with the following command:
sudo snap install intellij-idea-community --classic
After the installation is complete, IntelliJ IDEA can be found in the application menu or launcher.
2. Create a new project
After starting IntelliJ IDEA, we need to create a new Java project. Please follow these steps:
- Select the "Create New Project" option.
- In the "New Project" dialog box, select "Java" as the project type and click "Next".
- Select the installed Java Development Kit (JDK) in "Project SDK".
- Enter the project name and project path, and click "Finish".
3. Configure Java development environment
After creating a new project, we need to configure the Java development environment.
- Open the "Settings" dialog box and select the "Compiler" option under "Build, Execution, Deployment".
- In the "Java Compiler" section, select the correct Java version and click "OK" to save the configuration.
4. Configure the version control system
IntelliJ IDEA supports multiple version control systems, such as Git, Subversion, etc. We can integrate the required version control system in the project.
- Open the "Settings" dialog box and select the "Version Control" option.
- Select the version control system you want to use and configure it accordingly. For example, if you selected Git, enter the Git executable path and username.
- Click "OK" to save the configuration.
5. Import an existing project
If you already have an existing Java project and need to develop it in IntelliJ IDEA, you can import the project through the following steps:
- Select the "Import Project" option on the welcome screen of IntelliJ IDEA.
- In the "Import Project" dialog box, select the root directory of the project and select the appropriate build tool (such as Maven or Gradle).
- Click "OK" to import the project.
6. Debugging Java Code
IntelliJ IDEA provides powerful debugging functions that can help us quickly locate and solve problems.
- Select the Java class you want to debug in the code editor and set a breakpoint in the left sidebar.
- Click the "Debug" button to start a debugging session.
- In a debugging session, you can use various debugging features, such as single-stepping, viewing the values of variables and expressions, etc.
7. Using code examples
The following is a simple Java code example to demonstrate how to use IntelliJ IDEA for development and debugging:
public class HelloWorld {
public static void main(String[] args) {
String message = "Hello, World!";
System.out.println(message);
}
}In IntelliJ IDEA, you can follow The following steps use this sample code:
- Create a new Java class file and copy and paste the above code into it.
- Ensure that the Java development environment and version control system have been configured correctly.
- Click the "Run" button to execute the code.
- You can see the output results in the console.
Conclusion:
Through this article, we learned how to perform basic configuration of IntelliJ IDEA under the Linux operating system, as well as how to create new projects, configure the Java development environment, and import existing projects and debugging Java code. I hope these operation guides can help you use IntelliJ IDEA for Java development more efficiently.
The above is the detailed content of Basic Configuration Guide for Linux Java Development with IntelliJ IDEA. For more information, please follow other related articles on the PHP Chinese website!
The 5 Core Components of the Linux Operating SystemMay 08, 2025 am 12:08 AMThe five core components of the Linux operating system are: 1. Kernel, 2. System libraries, 3. System tools, 4. System services, 5. File system. These components work together to ensure the stable and efficient operation of the system, and together form a powerful and flexible operating system.
The 5 Essential Elements of Linux: ExplainedMay 07, 2025 am 12:14 AMThe five core elements of Linux are: 1. Kernel, 2. Command line interface, 3. File system, 4. Package management, 5. Community and open source. Together, these elements define the nature and functionality of Linux.
Linux Operations: Security and User ManagementMay 06, 2025 am 12:04 AMLinux user management and security can be achieved through the following steps: 1. Create users and groups, using commands such as sudouseradd-m-gdevelopers-s/bin/bashjohn. 2. Bulkly create users and set password policies, using the for loop and chpasswd commands. 3. Check and fix common errors, home directory and shell settings. 4. Implement best practices such as strong cryptographic policies, regular audits and the principle of minimum authority. 5. Optimize performance, use sudo and adjust PAM module configuration. Through these methods, users can be effectively managed and system security can be improved.
Linux Operations: File System, Processes, and MoreMay 05, 2025 am 12:16 AMThe core operations of Linux file system and process management include file system management and process control. 1) File system operations include creating, deleting, copying and moving files or directories, using commands such as mkdir, rmdir, cp and mv. 2) Process management involves starting, monitoring and killing processes, using commands such as ./my_script.sh&, top and kill.
Linux Operations: Shell Scripting and AutomationMay 04, 2025 am 12:15 AMShell scripts are powerful tools for automated execution of commands in Linux systems. 1) The shell script executes commands line by line through the interpreter to process variable substitution and conditional judgment. 2) The basic usage includes backup operations, such as using the tar command to back up the directory. 3) Advanced usage involves the use of functions and case statements to manage services. 4) Debugging skills include using set-x to enable debugging mode and set-e to exit when the command fails. 5) Performance optimization is recommended to avoid subshells, use arrays and optimization loops.
Linux Operations: Understanding the Core FunctionalityMay 03, 2025 am 12:09 AMLinux is a Unix-based multi-user, multi-tasking operating system that emphasizes simplicity, modularity and openness. Its core functions include: file system: organized in a tree structure, supports multiple file systems such as ext4, XFS, Btrfs, and use df-T to view file system types. Process management: View the process through the ps command, manage the process using PID, involving priority settings and signal processing. Network configuration: Flexible setting of IP addresses and managing network services, and use sudoipaddradd to configure IP. These features are applied in real-life operations through basic commands and advanced script automation, improving efficiency and reducing errors.
Linux: Entering and Exiting Maintenance ModeMay 02, 2025 am 12:01 AMThe methods to enter Linux maintenance mode include: 1. Edit the GRUB configuration file, add "single" or "1" parameters and update the GRUB configuration; 2. Edit the startup parameters in the GRUB menu, add "single" or "1". Exit maintenance mode only requires restarting the system. With these steps, you can quickly enter maintenance mode when needed and exit safely, ensuring system stability and security.
Understanding Linux: The Core Components DefinedMay 01, 2025 am 12:19 AMThe core components of Linux include kernel, shell, file system, process management and memory management. 1) Kernel management system resources, 2) shell provides user interaction interface, 3) file system supports multiple formats, 4) Process management is implemented through system calls such as fork, and 5) memory management uses virtual memory technology.
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
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
SAP NetWeaver Server Adapter for Eclipse
Integrate Eclipse with SAP NetWeaver application server.
MinGW - Minimalist GNU for Windows
This project is in the process of being migrated to osdn.net/projects/mingw, you can continue to follow us there. MinGW: A native Windows port of the GNU Compiler Collection (GCC), freely distributable import libraries and header files for building native Windows applications; includes extensions to the MSVC runtime to support C99 functionality. All MinGW software can run on 64-bit Windows platforms.
Zend Studio 13.0.1
Powerful PHP integrated development environment
ZendStudio 13.5.1 Mac
Powerful PHP integrated development environment
mPDF
mPDF is a PHP library that can generate PDF files from UTF-8 encoded HTML. The original author, Ian Back, wrote mPDF to output PDF files "on the fly" from his website and handle different languages. It is slower than original scripts like HTML2FPDF and produces larger files when using Unicode fonts, but supports CSS styles etc. and has a lot of enhancements. Supports almost all languages, including RTL (Arabic and Hebrew) and CJK (Chinese, Japanese and Korean). Supports nested block-level elements (such as P, DIV),
