Programming Languages

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This is the current Lemmy equivalent of https://www.reddit.com/r/ProgrammingLanguages/.

The content and rules are the same here as they are over there. Taken directly from the /r/ProgrammingLanguages overview:

This community is dedicated to the theory, design and implementation of programming languages.

Be nice to each other. Flame wars and rants are not welcomed. Please also put some effort into your post.

This isn't the right place to ask questions such as "What language should I use for X", "what language should I learn", and "what's your favorite language". Such questions should be posted in /c/learn_programming or /c/programming.

This is the right place for posts like the following:

"Check out this new language I've been working on!"
"Here's a blog post on how I implemented static type checking into this compiler"
"I want to write a compiler, where do I start?"
"How does the Java compiler work? How does it handle forward declarations/imports/targeting multiple platforms/?"
"How should I test my compiler? How are other compilers and interpreters like gcc, Java, and python tested?"
"What are the pros/cons of ?"
"Compare and contrast vs. "
"Confused about the semantics of this language"
"Proceedings from PLDI / OOPSLA / ICFP / "

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If Inheritance is so bad, why does everyone use it? (buttondown.email)

submitted 5 months ago by [email protected] to c/[email protected]

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This essay says that inheritance is harmful and if possible you should "ban inheritance completely". You see these arguments a lot, as well as things like "prefer composition to inheritance". A lot of these arguments argue that in practice inheritance has problems. But they don't preclude inheritance working in another context, maybe with a better language syntax. And it doesn't explain why inheritance became so popular in the first place. I want to explore what's fundamentally challenging about inheritance and why we all use it anyway.

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[–] [email protected] 1 points 5 months ago (1 children)

A type is a set of possible values. A sum type is multiple sets added together (summed).

That makes sense for str | int, but how is an enum a "sum type"?

As for product types, in set theory a product of sets is a cartesian product. How is a

struct Dog {
  height: u8
  length: u8,
  name: String,
}

impl Dog {
  fn bark() {
    println!("woof!");
  }
}

a product? What is it a product of? And why is the type itself a product, not Dog x Cat? Or is Dog x Cat indeed some kind of product that I'm not aware of but with another syntax?

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[–] [email protected] 2 points 5 months ago* (last edited 5 months ago)

Well what is an enum except a chain of X | Y | Z | .... An enum can be any of its variants, and therefore the set of its possible values are just all possibilities of its variants added together.

Consider this enum:

enum Foo {
  A,
  B(bool),
}

The possible values for A are just one: A. The possible values for B are B( true ) and B( false ). So the total possible values for Foo are simply these sets combined: A or B( true ) or B( false ).

As for product types, what it is the product is, is still the same: the sets of possible values. Consider the possible values for the product of A and B. For every possible value of A, a value could be made by matching it with any possible value of B (so, multiplication). If there are 3 possible values of A, and two possible values of B, then the total number of possible combinations of these for the product type is 6.

In your example, Dog is a product of u8, another u8, and String. If you decide to add a Boolean field to this type, accordingly the size of the set of options would double, because for every possible Dog you currently have, two possibilities would be created, one with a true and one with a false.

As for your last question, some languages might use x as a product type syntax, but because tuples and structs are inherently product types, most languages use those as Syntax. For example in Haskell the product type of Dog and Cat would be written as (Dog, Cat).