Zig vs Rust. Which one is going to be future?

I think about pros and cons and what to choose for the second (modern) language in addition to C.

@programming@programming.dev

  • zirias (on snac)@snac.bsd.cafe
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    3 months ago

    I’d say if you’re happy with #C, there’s no need to choose any second language. 🤷

    Before even looking at any alternatives, the question should be “why not C”. Some of the typical complaints are:

    • memory safety – or, more generally, the fact that C is only partially defined, leaving a lot to the dangerous area of undefined behavior. There’s no way to reliably detect undefined behavior by static code analysis, and it will often hide well at runtime. Especially errors regarding memory management often directly expose security vulnerabilities. In my experience, the risk can be reduced a lot by some good coding and design practices. Examples are avoiding magic numbers, using sizeof everywhere possible, preferably on expressions instead of type names, defining clear ownership of allocated objects (and, where not possible, add manual reference counting), making ownership explicit by using const where appropriate and naming your functions well, and so on. Given also there’s no guarantee alternative languages will safeguard you from all the possible issues and there are also a lot of other ways to create security vulnerabilities, my take on this would be: partially valid.
    • programming paradigm – you can only program in classic procedural style. Well, that’s simply not true. First of all, you can program whatever you want in any turing-complete language, so what we talk about shouldn’t be what’s directly supported by the constructs of the language, but what’s practically usable. In C, using some simple OOP is commonplace. Well, you can apply OOP to assembler programming without too much hassle, so, it’s not surprising you can do it in C, as it’s a pretty thin abstraction on top of machine code. C helps further with its linkage rules, where everything in a compilation unit is by default inaccessible to other units, and its incomplete types, where only a type name is known, but neither its size nor inner structure, giving you almost perfect information hiding for free. If you want/need polymorphism, it gets a bit more complicated (you have to think about how you identify types and manage virtual tables for them), but still perfectly doable. You’ll hit the practical limits of the language when you want to go functional. The very basics are possible through function pointers, but most concepts of functional programming can’t be applied to C in a somewhat sane way. Unless that’s what you need, my take would be: invalid.
    • limited standard lib. Indeed, the C standard library misses lots of things that are often needed, for example generic containers like lists, hashtables, queues, etc. It’s straight-forward to build them yourself, but then, there are many ways to do that (with pros and cons). You’ll find tons of different implementations, many non-trivial libraries bring their own, of course this also increases the risk to run into buggy ones … I wouldn’t consider it a showstopper, but I’d mark this complaint as: valid.

    Then, the next question would be: For what purpose are you looking for a second language?

    For applications and services, there’s already a wide range of languages used, and I’d say do what everyone does and pick what you’re most comfortable with and/or think best suits the job. IOW, it makes little sense to ask what would be “the future”, there have always been many different languages used, just pick one that’s unlikely to quickly disappear again, so you’d have to restart from scratch.

    For systems programming “the future” has been C for many decades 😏 … some people want to change that, actually for good reasons. IMHO, the current push for #Rust (I don’t see anything similar regarding #Zig yet?) into established operating systems is dangerous. An operating system is very different from individual apps and services. It’s required by these as a reliable and stable (in terms of no breaking changes) platform. It’s complex and evolves over an extremely long period of time. It needs to interface with all sorts of hardware using all sorts of machine mechanisms (PIO, DMA, MMIO, etc pp). I conclude it needs a very stable, proven and durable programming language. You’ll find C code from the 30 years ago that just still builds and works. IMHO a key factor is that there’s an international standard for the C language, governed by a standards body that isn’t controlled by any individual group. And correlated to that, there are many different implementations of the language. Before considering any different language in core areas of an established operating system, I’d like to see similar for that new language.

    Now, C was developed more or less together with #Unix, so back then, nobody knew it would be such a success, of course there was no standard yet. But then, I think this is the sane way to introduce a new systems programming language: Use it in a new (research?) OS.

    • GetOffMyLan@programming.dev
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      3 months ago

      For me you really aren’t selling it.

      When the answer to major draw backs with a language is use it better that’s a dead end for me.

      Some of the greatest programming minds have been using c for a long time and we still have a huge amount of dangerous vulnerabilities all the time.

      The language is fundamentally flawed and other languages have demonstrated that you can get the same flexibility, expressiveness and performance without these flaws.

      Again with the lack of many standard lib constructs. I now have to trust that every lib i use was written by a serious expert. as they’ll need to implement so much themselves rather than trusting the core language team, who you hope would know it better than most.

      And again with OOP. Why hack it into a language rather than use a language that supports it.

      It’s beginning to feel like people are just clinging to c because it’s what they are used to. All I seem see are justifications of its flaws and not any reasons to actually use it.

      If it came out today you’d have an incredibly hard time convincing anyone to use it over other languages.

      • zirias (on snac)@snac.bsd.cafe
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        3 months ago

        When the answer to major draw backs with a language is use it better that’s a dead end for me.

        Try browsing the list of somewhat recent #CVE rated critical, as I just did to verify. A majority of them is not related to any memory errors. Will you tell all them “just use a different programming language”?

        And again with OOP. Why hack it into a language rather than use a language that supports it.

        Have you seen existing C code? For anything non-trivial, most code uses some OOP, and it comes quite natural in C, certainly no “hacking”. You don’t need a class keyword to do that.

        If it came out today you’d have an incredibly hard time convincing anyone to use it over other languages.

        It doesn’t come out today, it’s been there for a long time, and it’s standardized, proven and stable. Sounds like you seriously misunderstood my points, which were, in a nutshell: For applications and similar, just use whatever suits you; for operating systems do experiments in lab/research projects (as was done with Unix), because existing and established ones are relied upon by lots of software. Just to make that perfectly clear, that doesn’t mean they should use C forever, it means they should wait for a potential replacement to reach a similar state of stability with independent standards and competing implementations.

      • zirias (on snac)@snac.bsd.cafe
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        3 months ago

        Nice, that looks like the way to do it!

        “Funny” how it even offers a libc for compatibility … but I guess this helps getting it some more serious testing 😉