Imperative, Functional, Functional Reactive
Do You Know the Difference Between Imperative, Functional, and Reactive Programming? Test your understanding of imperative, functional, and functional reactive programming with this interactive quiz. These questions cover the key concepts from the main post to help you solidify your knowledge for your next interview. --- primary_color: green secondary_color: lightgray text_color: black shuffle_questions: false shuffle_answers: true --- # What is functional programming about? 1. [ ] Writing functions that may modify state as needed 1. [x] Avoiding side effects and state mutation 1. [ ] Relying on side effects to manage state transitions 1. [ ] Emphasizing object-oriented design patterns # In functional programming, why must functions avoid side effects? 1. [ ] To improve performance 1. [x] To prevent unpredictable state changes 1. [ ] To enable state mutation 1. [ ] To allow recursion # Which paradigm describes a sequence of instructions that modify the program’s state step by step? 1. [ ] Functional 1. [ ] Functional Reactive 1. [x] Imperative 1. [ ] Declarative # What is considered a side effect in a function? 1. [ ] Returning a computed value 1. [x] Modifying a variable outside its scope 1. [ ] Calling another pure function 1. [ ] Using recursion # How is state typically managed in functional programming? 1. [ ] By mutating global variables 1. [x] By transforming old state into new state 1. [ ] By ignoring state changes 1. [ ] By centralizing state in a single object # Which pattern is used by functional reactive programming? 1. [ ] Singleton 1. [ ] Factory 1. [ ] Delegate and Callback 1. [x] Publisher and Subscriber # What is the primary benefit of using pure functions? 1. [ ] They allow state mutations 1. [x] They are easier to test and debug 1. [ ] They increase code complexity 1. [ ] They require global variables # Examine the code below. Does it fully follow the functional programming principles? ```swift var value = 0 func increment(_ value: Int) -> Int { value + 1 } value = increment(value) print(value) ``` 1. [ ] Yes, it's correct 1. [ ] No, the function has side effects 1. [x] No, it mutates state by reassigning a mutable variable 1. [ ] No, it mutates the "value" variable inside the increment function Didn’t get the full result? No worries! All the answers are in the blog post HERE ...