English | MP4 | AVC 1280×720 | AAC 48KHz 2ch | 2 Hours | 386 MB
Along with being tried and trusted, functional programming is one of the biggest current trends in programming. Its focus on side-effect free code, unadorned data manipulation and simple structures promote a coding style that reduces bugs, and lifts the level of abstraction to a point where we can achieve more with less code. All topics discussed in the course can be used to various degrees in any code-base – even if your daily work is with a huge object-oriented project, the techniques discussed will certainly be useful.
Right from the start we’ll dive into the implementation of a text-based adventure game. We will also see how function composition is used to solve specific problems in this domain by combining highly generic functions. We learn function programming techniques that help improve asynchronous code used to load the game from disk.
Later we’ll become acquainted with a few other examples as well, as we learn about designing applications around an immutable data structure. And we end our journey with a discussion of recursion and how it relates to lazy data structures, and show examples of using previously discussed techniques on infinite data sets.
What You Will Learn
- Explore higher-order functions, what they are and how to work with them
- Solve issues related to asynchronous methods effectively by using promises
- Use a library such as immutable.js to implement immutability
- Implement immutability with Facebook’s React for super fast user interfaces
- Combine a “functional core” to build a web application where most of the code is functional
- Make efficient use of recursion with big data sets to make code easier to visualize
Introduction to Functional Programming
The Course Overview
What Is Functional Programming?
Your First Functional Programming Concepts
Higher Order Functions
Passing Functions as Arguments
Continuation Passing Style
Partial Function Application
What Is Immutability?
Working with Immutability
Immutability in the UI
Mechanics and Performance
A Recursive AST Parser