Functional Programming: Difference between revisions
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=Overview= | =Overview= | ||
The ability to pass functions as arguments and no shared mutable data | The functional programming cornerstones are the ''ability to pass functions as arguments'' and ''no shared mutable data''. Functional programming is essentially different than ''imperative programming'', where a program is described in terms of a sequence of statements that mutate state. | ||
[[Java#Java_8|Java 8]] introduced [[Java 8 Lambda Expressions#Overview|lambda expressions]], which allow [[#Behavior_Parameterization|behavior parameterization]] and functional programming. | [[Java#Java_8|Java 8]] introduced [[Java 8 Lambda Expressions#Overview|lambda expressions]], which allow [[#Behavior_Parameterization|behavior parameterization]] and functional programming. |
Revision as of 22:13, 22 March 2018
Internal
Overview
The functional programming cornerstones are the ability to pass functions as arguments and no shared mutable data. Functional programming is essentially different than imperative programming, where a program is described in terms of a sequence of statements that mutate state.
Java 8 introduced lambda expressions, which allow behavior parameterization and functional programming.
Closures and recursion are at the base of the functional programming paradigm.
Behavior Parameterization
Prior to Java 8, behavior parameterization was possible with anonymous classes. In Java 8, functions can be explicitly passed to the API, as parameters, and returned as results.
Function
Pure Function
A piece of behavior that is perfectly descried solely by the way it transform arguments to results, behaving as a mathematical function and having no side effects. Also known as side-effect-free function or stateless function.
Also see Parallelism.