• BatmanAoD@programming.dev
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    4 months ago

    Whatever you want to call them, my point is that most languages, including Rust, don’t have a way to define new integer types that are constrained by user-provided bounds.

    Dependent types, as far as I’m aware, aren’t defined in terms of “compile time” versus “run time”; they’re just types that depend on a value. It seems to me that constraining an integer type to a specific range of values is a clear example of that, but I’m not a type theory expert.

    • solrize@lemmy.world
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      4 months ago

      Dependent types only make sense in the context of static typing, i.e. compile time. In a dependently typed language, if you have a term with type {1,2,3,4,5,6,7} and the program typechecks at compile time, you are guaranteed that there is no execution path through which that term takes on a value outside that set. You may need to supply a complicated proof to help the compiler.

      In Ada you can define an integer type of range 1…7 and it is no big deal. There is no static guarantee like dependent types would give you. Instead, the runtime throws an exception if an out-of-range number gets sent there. It’s simply a matter of the compiler generating extra code to do these checks.

      There is a separate Ada-related tool called SPARK that can let you statically guarantee that the value stays in range. The verification method doesn’t involve dependent types and you’d use the tool somewhat differently, but the end result is similar.

      • BatmanAoD@programming.dev
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        3 months ago

        For what it’s worth, Ada and Spark are listed separately in the Wiki article on dependent typing. Again, though, I’m not a language expert.

        • solrize@lemmy.world
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          3 months ago

          I’ll look at the wiki article again but I can pretty much promise that Ada doesn’t have dependent types. They are very much a bleeding edge language feature (Haskell will get them soon, so I will try using them then) and Ada is quite an old fashioned language, derived from Pascal. SPARK is basically an extra-safe subset of Ada with various features disabled, that is also designed to work with some verification tools to prove properties of programs. My understanding is that the proof methods don’t involve dependent types, but maybe in some sense they do.

          Dependent types require the type system to literally be Turing-complete, so you can have a type like “prime number” and prove number-theoretic properties of functions that operate on them. Apparently that is unintentionally possible to do with C++ template metaprogramming, so C++ is listed in the article, but actually trying to use C++ that way is totally insane and impractical.

          I remember looking at the wiki article on dependent types a few years ago and finding it pretty bad. I’ve been wanting to read “The Little Typer” (thelittletyper.com) which is supposed to be a good intro. I’ve also played with Agda a little bit, but not used it for real.