https://www.pluralsight.com/courses/swift-creational-design-patterns

Do you feel like your Swift code could be more organized and efficient? In this course, Creational Design Patterns in Swift 5, you'll learn how to write cleaner, more manageable Swift code. First, you'll kick things off with a quick tour of design pattern history, understanding their value and limitations, plus a UML primer to help you decode diagrams throughout the course. Next, you’ll dive into the Singleton and Prototype patterns, your key to resource sharing and object cloning. Finally, you’ll learn how to leverage the Builder, the Factory Method, and the Abstract Factory patterns to streamline object creation and make your Swift code more modular and easy to maintain. When you’re finished with this course, you’ll have a solid grip on these design patterns, giving you the tools you need to make your Swift code cleaner, more organized, and easier to manage.

https://www.udemy.com/course/design-patterns-in-python-demystified-creational/

 

https://www.linkedin.com/learning/c-plus-plus-design-patterns-creational

 
Design patterns solve the challenges software developers face over and over again. They are reusable, proven solutions that make your software more reliable and flexible to change. Creational design patterns move the creation of objects out of the main codebase and into separate classes-a best practice known as encapsulation. This course explores the five most popular creational design patterns for C++. To convince you of their merits, instructor Olivia Chiu first explains why we use design patterns in the first place, and what problems that creational patterns can help you solve. She then reviews the core concepts, implementation instructions, and examples for each pattern: Factory, Abstract Factory, Builder, Prototype, and Singleton. She also shows how to extend patterns and compare patterns to find the best fit for your applications.

 

Time-tested solutions to common problems in software engineering never go out of style, especially when software systems last much longer than anticipated. Exploring design patterns as part of an overall software development strategy is more important than ever to create maintainable, flexible designs. This course covers all the core creational patterns from the original design patterns catalog, the Gang of Four collection. Explore how to use these five patterns to create flexible and efficient object-oriented software designs, learn how the patterns and the design principles behind them guide good software design, and discover techniques and ideas to improve your own designs.

Design patterns solve the challenges software developers face over and over again. They are reusable, proven solutions that make your software more reliable and flexible to change. Creational design patterns move the creation of objects out of the main codebase and into separate classes-a best practice known as encapsulation. This course explores the five most popular creational design patterns for C++. To convince you of their merits, instructor Olivia Chiu first explains why we use design patterns in the first place, and what problems that creational patterns can help you solve. She then reviews the core concepts, implementation instructions, and examples for each pattern: Factory, Abstract Factory, Builder, Prototype, and Singleton. She also shows how to extend patterns and compare patterns to find the best fit for your applications.

English | 1hr 3m | Video: 720p | Subtitles

Design patterns solve the challenges software developers face over and over again. They are reusable, proven solutions that make your software more reliable and flexible to change. Creational design patterns move the creation of objects out of the main codebase and into separate classes-a best practice known as encapsulation. This course explores the five most popular creational design patterns for C++. To convince you of their merits, instructor Olivia Chiu first explains why we use design patterns in the first place, and what problems that creational patterns can help you solve. She then reviews the core concepts, implementation instructions, and examples for each pattern: Factory, Abstract Factory, Builder, Prototype, and Singleton. She also shows how to extend patterns and compare patterns to find the best fit for your applications.