this post was submitted on 13 Aug 2024
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Strategy Pattern in Rust (programming.dev)
submitted 3 months ago* (last edited 3 months ago) by [email protected] to c/[email protected]
 

Hey there, I'm currently learning Rust (coming from object-oriented and also to some degree functional languages like Kotlin) and have some trouble how to design my software in a Rust-like way. I'm hoping someone could help me out with an explanation here :-)

I just started reading the book in order to get an overview of the language as well.

In OOP languages, I frequently use design patterns such as the Strategy pattern to model interchangeable pieces of logic.

How do I model this in Rust?

My current approach would be to define a trait and write different implementations of it. I would then pass around a boxed trait object (Box<dyn MyTrait>). I often find myself trying to combine this with some poor man's manual dependency injection.

This approach feels very object oriented and not native to the language. Would this be the recommended way of doing things or is there a better approach to take in Rust?

Thanks in advance!

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[โ€“] [email protected] 3 points 3 months ago (1 children)

A language is not functional just because it supports higher order functions. Technically C even supports them (even though the ergonomics and safety of them are terrible). Would you call C a functional programming language? Obviously not. Rust is also not a functional language, even though it comes closer than most OO/imperative languages.

Kotlin and plenty of other OO languages have borrowed some ideas from functional languages in recent years because those ideas are useful. That doesn't make them functional languages. If Kotlin were a functional language, then it wouldn't need libraries like arrow to try to make doing FP in Kotlin even (kind of) possible.

Hallmarks of FP (beyond higher-order functions), in no particular order:

  • Organization around functions as the fundamental unit of code
  • Code primarily defined in terms of expressions and data transformations rather than statements manipulating object state (so languages that have big blocks of imperative statements like Kotlin don't count)
  • A general orientation around pure functions, even if they vary on the degree to which they enforce purity
  • Explicit parameter passing being the standard and preferred way of providing data to functions, rather than methods operating on implicit state
  • First class support for function composition (method chaining doesn't count)
  • Pattern matching and destructuring as a first-class and ubiquitous concept (what Kotlin does have is a joke comparatively and no one would actually call it that)
  • For statically-typed functional languages, first class support for algebraic data types (Kotlin has sealed classes which can kind of be used to try to emulate it, but it's pretty awkward in comparison and requires you to write very OO-ish code to use)

There are some minor exceptions, such as Clojure lacking pattern matching, but on the whole functional languages generally fit these descriptions.

[โ€“] [email protected] 2 points 3 months ago

Points that I would gladly agree upon - but it seems the Wikipedia authors don't.

I am not knowledgeable enough to draw a definite line what counts as functional and what doesn't - so I chose to go with whatever Wikipedia says... Even though I dislike it.