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Joined 1 year ago
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Cake day: August 18th, 2023

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  • You’re not wrong, but not everything needs to scale to 200+ servers (…arguably almost nothing does), and I’ve actually seen middle managers assume that a product needs that kind of scale when in fact the product was fundamentally not targeting a large enough market for that.

    Similarly, not everything needs certifications, but of course if you do need them there’s absolutely no getting around it.


  • But how does the alternative solutions compare with regards to maintainability?

    Which alternative solutions are you thinking of, and have you tried them?

    Rust has been mentioned several times in the thread already, but Go also prohibits “standard” OOP in the sense that structs don’t have inheritance. So have you used either Rust or Go on a large project?





  • I haven’t told you to keep calm. I’m just confused about you repeating the same points, in the same words, over and over, even after being told that you don’t have your facts correct.

    I’m not saying you can’t learn or talk about other languages; I’m confused by the mismatch between your posts criticizing people for promoting newer tech stacks and the ones where you seem to be promoting newer tech stacks yourself.

    25 years of experience is certainly enough to have strong opinions, but until your last comment I had the impression that you had a year or less of experience in C, hence my question.







  • The education system (universities, colleges, courses) uses the “modern” development stack.

    Hahahahahaha!

    Only a very few colleges and courses specializing in a very narrow field, such as embedded devices, can teach you the C language.

    snort BWAHAHAHAHA!

    the “dying C”

    [wheezing]

    And by doing this they are trying to hide the C language.

    [incredulous snort]

    And the community is kind

    [wistful sigh] I truly wonder what it would be like not to know anything about Linus Torvalds. I sometimes wish I didn’t know about Richard Stallman!

    And that it is unlikely that C will be able to replace anything in the near future.

    I’m sure you wrote this backwards.


  • Why do you keep posting this exact same rant? I see that some posts are in different Lemmy communities and you’ve posted it at least once on hacker news, but you also posted it to this same community already (https://snac.bsd.cafe/modev/p/1727338529.193499) and, although I can’t find it now, I remember you posting it months ago, too.

    Several of your posts that aren’t about how C is being “suppressed” (which the responses to your post have repeatedly demonstrated isn’t true) are about how you, personally, are still learning C and want more resources to learn it. And now you’re also posting about Nelua and Nim. This is wild to me! Why do you have such strong opinions about a language that you’re still learning? If you’re that passionate about C and believe that people should use it instead of newer languages, why do you care about Nim or Nelua? If you’re just trolling, why do you engage relatively patiently in the comments? And whatever your goal is, why do you keep reposting the same rants, especially this one that’s now quite old?


  • On the one hand, you’re right, C is waaaay higher-level than many people realize, and the compiler and processor do wild things to make code go faster. On the other hand, the C abstract machine is close enough to how computers “really work” to give you a fairly useful mental model, in a way that no other mainstream high-level language can.

    Even so, if you want to know how low-level code works, you should probably just learn one or more actual assembly languages and write a few small programs that way.

    C has another advantage, though: firmware, OS kernels, and virtual machines (other than browser JS engines) are still almost entirely written in C. So while it doesn’t teach you accurately how processors work, it is relevant if you want to know about the system software that meditates between the hardware and high-level software.





  • 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.


  • It sounds like you’re talking about dependent typing, then, at least for integers? That’s certainly a feature Rust lacks that seems like it would be nice, though I understand it’s quite complicated to implement and would probably make Rust compile times much slower.

    For ordinary integers, an arithmetic overflow is similar to an OOB array reference and should be trapped, though you might sometimes choose to disable the trap for better performance, similar to how you might disable an array subscript OOB check.

    That’s exactly what I described above. By default, trapping on overflow/underflow is enabled for debug builds and disabled for release builds. As I said, I think this is a sensible behavior. But in addition to per-operation explicit handling, you can explicitly turn global trapping behavior trapping on or off in your build profile, though.