Java Best Practices for Efficient, Scalable, and Secure Code

Java Best Practices for Efficient, Scalable, and Secure Code, available at $54.99, has an average rating of 4.7, with 124 lectures, 9 quizzes, based on 13 reviews, and has 326 subscribers.

You will learn about Java Best Practices Solid Foundation in OOP Principles Application of SOLID Principles Effective OOP Interview Preparation Hands-On Exam on Object-Oriented Programming Understanding Java Platform Module System (JPMS) Comprehensive Testing Techniques for Java Platform Adoption of TDD, BDD & ATDD Methodologies Object-Oriented Architecture Design The Best Clean Code Practices Application of GoF Design Patterns Preparation for Design Patterns Interviews Stay Updated with Java New Versions Effective Logging Practices in Java Java Secure Coding Practices Designing RESTful Architectures Understanding Software Development Metrics and KPIs Web Application Design Patterns This course is ideal for individuals who are Java Developers: Intermediate and experienced Java developers looking to enhance their skills and adopt industry best practices in Java programming. or Java Enthusiasts and Students: Students and enthusiasts who want to build a strong foundation in Java programming and gain insights into industry-standard practices. or Technical Leads and Architects: Technical leads and architects aiming to reinforce their understanding of Java best practices for designing scalable and maintainable software architectures. or QA Engineers: QA professionals aiming to understand Java best practices to enhance the quality and efficiency of their testing efforts. or QA Automation Engineers: Individuals involved in QA automation who want to improve their Java programming skills and incorporate best practices into their automated testing frameworks. or QA Leads and Managers: QA leads and managers seeking insights into Java best practices to guide their teams in implementing effective and maintainable testing strategies. It is particularly useful for Java Developers: Intermediate and experienced Java developers looking to enhance their skills and adopt industry best practices in Java programming. or Java Enthusiasts and Students: Students and enthusiasts who want to build a strong foundation in Java programming and gain insights into industry-standard practices. or Technical Leads and Architects: Technical leads and architects aiming to reinforce their understanding of Java best practices for designing scalable and maintainable software architectures. or QA Engineers: QA professionals aiming to understand Java best practices to enhance the quality and efficiency of their testing efforts. or QA Automation Engineers: Individuals involved in QA automation who want to improve their Java programming skills and incorporate best practices into their automated testing frameworks. or QA Leads and Managers: QA leads and managers seeking insights into Java best practices to guide their teams in implementing effective and maintainable testing strategies.

Enroll now: Java Best Practices for Efficient, Scalable, and Secure Code

Summary

Title: Java Best Practices for Efficient, Scalable, and Secure Code

Price: $54.99

Average Rating: 4.7

Number of Lectures: 124

Number of Quizzes: 9

Number of Published Lectures: 124

Number of Published Quizzes: 8

Number of Curriculum Items: 133

Number of Published Curriculum Objects: 132

Original Price: $29.99

Quality Status: approved

Status: Live

What You Will Learn

Java Best Practices

Solid Foundation in OOP Principles

Application of SOLID Principles

Effective OOP Interview Preparation

Hands-On Exam on Object-Oriented Programming

Understanding Java Platform Module System (JPMS)

Comprehensive Testing Techniques for Java Platform

Adoption of TDD, BDD & ATDD Methodologies

Object-Oriented Architecture Design

The Best Clean Code Practices

Application of GoF Design Patterns

Preparation for Design Patterns Interviews

Stay Updated with Java New Versions

Effective Logging Practices in Java

Java Secure Coding Practices

Designing RESTful Architectures

Understanding Software Development Metrics and KPIs

Web Application Design Patterns

Who Should Attend

Java Developers: Intermediate and experienced Java developers looking to enhance their skills and adopt industry best practices in Java programming.

Java Enthusiasts and Students: Students and enthusiasts who want to build a strong foundation in Java programming and gain insights into industry-standard practices.

Technical Leads and Architects: Technical leads and architects aiming to reinforce their understanding of Java best practices for designing scalable and maintainable software architectures.

QA Engineers: QA professionals aiming to understand Java best practices to enhance the quality and efficiency of their testing efforts.

QA Automation Engineers: Individuals involved in QA automation who want to improve their Java programming skills and incorporate best practices into their automated testing frameworks.

QA Leads and Managers: QA leads and managers seeking insights into Java best practices to guide their teams in implementing effective and maintainable testing strategies.

Target Audiences

Java Developers: Intermediate and experienced Java developers looking to enhance their skills and adopt industry best practices in Java programming.

Java Enthusiasts and Students: Students and enthusiasts who want to build a strong foundation in Java programming and gain insights into industry-standard practices.

Technical Leads and Architects: Technical leads and architects aiming to reinforce their understanding of Java best practices for designing scalable and maintainable software architectures.

QA Engineers: QA professionals aiming to understand Java best practices to enhance the quality and efficiency of their testing efforts.

QA Automation Engineers: Individuals involved in QA automation who want to improve their Java programming skills and incorporate best practices into their automated testing frameworks.

QA Leads and Managers: QA leads and managers seeking insights into Java best practices to guide their teams in implementing effective and maintainable testing strategies.

Unlock the full potential of Java development with my comprehensive course on best practices. Whether you’re a Java developer looking to elevate your coding skills, a Development Lead, an Architect, or a QA professional aiming to enhance testing efficiency. This course is your gateway to a higher level of Java expertise. It provides a deep dive into industry-proven techniques.

Key Learning Points:

Solid Foundation in OOP Principles:

Master the fundamental concepts of OOP and discover their direct applications in Java development.

Application of SOLID Principles:

Learn how to apply SOLID principles systematically, ensuring the creation of Java code that is robust, scalable, and easily maintainable.

Object-Oriented Architecture Design:

Develop the skills needed to create scalable and maintainable Object-Oriented Architecture for Java applications, ensuring your projects stand the test of time.

Application of GoF Design Patterns:

Understand and implement the renowned Gang of Four (GoF) design patterns, addressing common challenges encountered in software design.

Preparation for Design Patterns Interviews:

Learn how to navigate design pattern-related problems commonly encountered in interviews, enhancing your problem-solving skills and interview performance.

Effective OOP Interview Preparation:

Equip yourself with the knowledge and skills needed to confidently navigate OOP-related interview questions, enhancing your prospects in job interviews.

Hands-On Exam on Object-Oriented Programming:

Demonstrate your practical proficiency in applying OOP principles through a comprehensive examination, solidifying your understanding of key concepts.

Understanding Java Platform Module System (JPMS):

Explore the benefits of modularity in Java applications using the Java Platform Module System, gaining insights into creating modular and efficient codebases.

Comprehensive Testing Techniques:

Master Unit Testing with JUnit, delve into Integration Testing, and learn to harness the power of Mockito and PowerMockito for effective and reliable testing.

Adoption of TDD, BDD & ATDD Methodologies:

Gain practical experience in Test-Driven Development (TDD), Behavior-Driven Development (BDD), and Acceptance Test-Driven Development (ATDD), transforming your approach to software development.

Web Application Architecture: 

We are going to learn the best practices of web application development

Best Practices of REST Architecture Design in Java Applications:

Architecture – that is something what is critically important from the very beginning.

Stay Updated with Java New Versions:

Keep pace with the latest features and improvements in recent Java versions, ensuring you leverage the full potential of the language.

Effective Logging Practices in Java:

Understand the critical role of logging in Java applications and learn best practices using frameworks like SLF4J and Logback.

Secure Coding Practices:

Explore secure coding practices, addressing OWASP Top 10 security issues in Java applications, fortifying your code against potential vulnerabilities.

Designing RESTful Architectures:

Master the principles of RESTful architecture and learn best practices for designing RESTful APIs in Java, ensuring efficient communication in modern software systems.

Understanding Software Development Metrics and KPIs:

Gain insights into the importance of metrics and key performance indicators (KPIs) in software development. This knowledge enables informed decision-making and continuous improvement in your development processes.

Embark on this educational journey to become a proficient and well-rounded Java developer, QA professional, architect, or tech lead, armed with the latest industry best practices and techniques. Join us on a journey to master Java best practices and elevate your software development skills to new heights.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Communication plan

Lecture 2: Unlimited access to Learn-IT application for students

Lecture 3: Tips to Improve Your Course Taking Experience

Lecture 4: Additional Free Learning Materials to Use During the Course

Chapter 2: OOP Basics

Lecture 1: Object-oriented programming: Basics

Lecture 2: Classes & Objects

Lecture 3: Different types of Classes, Abstract keyword and Abstract classes

Lecture 4: Interfaces

Chapter 3: OOP Core Principles – Inheritance, Polymorphism, Encapsulation and Abstraction

Lecture 1: Inheritance

Lecture 2: Polymorphism and final keyword

Lecture 3: static keyword

Lecture 4: Encapsulation

Lecture 5: Object, JNI and Object class overview

Chapter 4: SOLID Principles

Lecture 1: SOLID principles overview & Single Responsibility Principle

Lecture 2: Open / Closed Principle

Lecture 3: Liskov Substitution Principle

Lecture 4: Interface Segregation Principle

Lecture 5: Dependency Inversion Principle

Chapter 5: PRACTICE: Coding exercises to practice SOLID principles

Chapter 6: ===== OOP: Interview Preparation =====

Lecture 1: How to be prepared for the interview?

Lecture 2: Part 1: OOP Interview – Questions and Answers

Lecture 3: Part 2: OOP Interview – Questions and Answers

Chapter 7: Practice: EXAM OOP & Object-Oriented e-Commerce console applications

Lecture 1: Exam and homework for OOP topic

Chapter 8: Object-oriented Architecture, Clean Code Design (Advanced)

Lecture 1: Clean Code Architecture, Coupling & Cohesion

Lecture 2: Tell, Don’t Ask Pricniple & Data Structures

Lecture 3: Law of Demeter

Lecture 4: KISS Principle in OOP

Lecture 5: YAGNI Principle in OOP

Lecture 6: DRY Principle in OOP | Part 1

Lecture 7: DRY Principle in OOP | Part 2 – Practice

Lecture 8: Packaging Pricniples p.1: Cohesion Principles

Lecture 9: Packaging Pricniples p.2: Coupling Principles and Others

Chapter 9: GoF Design Patterns of Software Architecture in OOP

Lecture 1: GoF Patterns: Overview

Lecture 2: Creational Patterns

Lecture 3: Structural Patterns, p.1

Lecture 4: Structural Patterns, p.2

Lecture 5: Behevioral Patterns, p.1

Lecture 6: Behevioral Patterns, p.2

Lecture 7: Behevioral Patterns, p.3

Chapter 10: ===== Design Patterns: Interview Questions =====

Lecture 1: Part 1: OOP & Design Patterns Interview – Questions and Answers

Chapter 11: Java Platform Module System: Modules in Java & Migration of Java Apps

Lecture 1: Modules in Java: Modular Application Example

Lecture 2: Migration of Java Apps: Example of migration to a modular application

Chapter 12: Testing for Software Engineers

Lecture 1: Testing for software engineers: Overview

Chapter 13: Unit Testing & JUnit 5

Lecture 1: Unit Testing & JUnit Overview

Lecture 2: JUnit 5 examples VS JUnit 4 + Equivalence class partitioning

Lecture 3: JUnit 5 API (Advanced) & Test Code Coverage

Lecture 4: JUnit 5 API (Advanced p. 2) & Hamcrest Library

Chapter 14: Integration testing & Mockito

Lecture 1: Integration Testing in Java

Lecture 2: Mockito: Part 1

Lecture 3: Mockito: Part 2

Chapter 15: PowerMockito

Lecture 1: PowerMock

Chapter 16: TDD, BDD & ATTD

Lecture 1: Test-driven development: Theory

Lecture 2: BDD & ATTD

Lecture 3: TDD, BDD & ATTD – Practice

Chapter 17: Java: New Versions

Lecture 1: Java 8 Features (Lambda, Stream API, Optional, Effectively Final, etc.)

Lecture 2: java.util.Optional – Optional in Java

Lecture 3: Java 9: Stream API Updates, Multi-Resolution Image, Stack-Walking API, etc.

Lecture 4: Java 9: Process API & CompletableFuture API updates, Interface Private Methods

Lecture 5: Java 9: jlink & jshell

Lecture 6: Java 9: Multi-Release JAR Files & Compact Strings

Lecture 7: Java 9: Deprecated & Removed Features

Lecture 8: Reactive Programming in Java: Flow API, Reactive Streams

Lecture 9: Java 10: ‘var’ variables (Type inference), Docker support, Flex Heap Size, etc.

Lecture 10: Java 10: Other improvements, Removals, Deprecations, Release Versioning

Lecture 11: Java 11: LTS Concept, New HTTP Client, String & Files API Updates

Lecture 12: Java 11: Collection & Predicate API Updates, Nest-Based Access Control & more

Lecture 13: Java 12: CompactNumberFormat, Teeing Collector, String.indent(), transform()

Lecture 14: Java 13: Socket API, newFileSystem() method, ZGC Uncommit Unused Memory & others

Lecture 15: Java 14: Switch expressions, Currency Format, Helpful NullPointerExceptions

Lecture 16: Java 15: Text Blocks, Hidden Classes, new String methods

Lecture 17: Java 16: JEP 395 – Records

Lecture 18: Java 16: instanceof, Day Period Support, Stream.toList() & others

Lecture 19: Java 17: Sealed Classes & other improvements

Chapter 18: Web Application Design Patterns – Best Practices

Lecture 1: DAO (Data Access Object) Design Pattern

Lecture 2: MVC Design Pattern

Instructors

Andrii Piatakha
Founder and CEO in IT-Bulls, Founder of Learn-IT University

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3 stars: 1 votes

4 stars: 4 votes

5 stars: 8 votes

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