• @[email protected]
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    471 year ago

    I can only speak out of my own experience, which is mostly C++, C#, C and Rust, but I also know a bit of Haskell, Java, Fortran, PHP, Visual Basic, and, to my deepest regret, also JavaScript.

    For additional context: I have been working in game development for the last 7 years, my main language is C++ for Unreal, but I’ve also worked on some Unity projects with C# as main language. Before I switched to game dev I worked in material science, and used C, mostly. I use Rust for my spare time projects, and the game company I work at is planning to introduce it into our Unreal projects some point later this year.

    Of all the languages I mentioned above, (Safe) Rust and Haskell are the only ones that have not yet made me scream at my PC, or hit my head against the desk.

    So, some of the reasons why I personally love Rust:

    • Rust is extremely simple compared to the other languages I mentioned above. If you read the official introduction you know all you need to write Safe Rust code.
    • Rust’s syntax is elegant. It’s not as elegant as Haskell, but it’s a lot more elegant than any C-based language.
    • Rust is (mostly) type safe. There are (nearly) no implicit conversions.
    • Rust is memory-safe, without the runtime overhead that garbage collected languages incur.
      • This is a bit of a neutral point though. The Rust compiler will complain if you make mistakes in memory management. Unlike in managed languages, you still need to do the memory management by hand, and find a working solution for it.
    • The memory management model of Rust (“borrow checker”) makes data dependencies explicit. This automatically leads to better architecture that reflects dependencies, because if the architecture doesn’t match them, development will become an uphill battle against the borrow checker.
    • Due to the borrow checker, you can use references extensively, and rely on the referenced object to valid, and also that it is up-to-date (because it cannot be muted or go out of scope as long as you hold the reference).
    • Traits are an amazing way to abstract over types. Either at zero-cost (static dispatch), or, in the rare cases where it’s needed, using virtual function tables.
    • Rust aims to have no undefined behaviour. If it compiles the behaviour of the code is well defined.
      • This, together with the borrow checker, ensures that there are (nearly) no “weird bugs”. Where in C++ one quite regularly hits issues that at first glimpse seem impossible, and only can be explained after several days of research on cppreference (“oh, so the C++ standard says that if this piece of code gets compiled on a full moon on a computer with a blue power LED, it’s undefined behaviour”), that almost never happens in Rust.
    • Macros in Rust are amazing. There are macros-by-example that work by pattern-matching, but there are also procedural macros, which are Rust functions that take Rust code as input, and generate Rust code as output. This gives you amazing power, and one of the most impressive examples is the Serde serialization framework, that allows you to add serialization to your data types simply by adding an attribute.
    • Tooling for Rust is pretty good. The Rust compiler is well known for its helpful error messages. The rust-analyzer plugin for Visual Studio Code is great too. (It also works with vim, Qt Creator and others, but the but Visual Studio Code works best imho.)

    The points mentioned above mostly apply to Safe Rust though. Unsafe Rust is a different story.

    This brings us to the downsides. Rust isn’t perfect. Far from it, actually. Here are some of the things that aren’t great about Rust.

    • No Higher Kinded Types. This is my main issue with Rust. Even C++ has them (as usual for C++ in a horrible un-ergonomic and utterly confusing way). If Rust had Higher Kinded Types, the language could have been simpler still. For instance, there would have been no need for the async keyword in the language itself.
    • Unsafe Rust is hard. In my opinion even harder than C++, because of Rust’s aliasing rules. Unlike C++, Rust doesn’t allow mutable memory aliasing. That’s because mutable aliasing can never happen in Safe Rust, and not supporting it improves performance. This means that when writing Unsafe Rust, one has to be careful about aliasing.
      • Luckily one only rarely needs Unsafe Rust, usually only in order to call functions from other languages. Still, it’s hard, and I’d generally suggest to use an automated code generator like cxx.rs for interfacing with other languages.
    • Interior Mutability. I understand why it exists, but it breaks a lot of the guarantees that make Rust a great language. So, my conclusion is that one should avoid it as much as possible.

    However, the upsides clearly outweigh the downsides imho.

    tl;dr If a (Safe) Rust program compiles, chances are pretty high that it also works. This makes programming with it quite enjoyable.

    • jadero
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      101 year ago

      This, together with the borrow checker, ensures that there are (nearly) no “weird bugs”. Where in C++ one quite regularly hits issues that at first glimpse seem impossible, and only can be explained after several days of research on cppreference (“oh, so the C++ standard says that if this piece of code gets compiled on a full moon on a computer with a blue power LED, it’s undefined behaviour”), that almost never happens in Rust.

      Ah yes, the Chaos Theory principal of programming.

      You’ve settled my mind on which language to tackle next. There are a couple projects that have been calling my name, one in Go and one in Rust. Strictly speaking, I might be able to contribute to their documentation and tutorials without ever looking at the code (nobody in their right mind would ever accept code from me anyway), but I like to have some idea of what goes on under the hood.

      Rust it is.

    • @[email protected]
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      101 year ago

      For downsides, i’d like to add that the lack of function overloading and default parameters can be really obnoxious and lead to [stupid ugly garbage].

      A funny one i found in the standard library is in time::Duration. Duration::as_nanos() returns a u128, Duration::from_nanos() only accepts a u64. That means you need to explicitly downcast and possibly lose data to make a Duration after any transformations you did.

      They cant change from_nanos() to accept u128 instead because that’s breaking since type casting upwards has to be explicit too (for some reason). The only solution then is to make a from_nanos_u128() which is both ugly, and leaves the 64 bit variant hanging there like a vestigial limb.

    • @[email protected]OP
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      1 year ago

      to my deepest regret, also JavaScript

      I can relate. And thanks for this high-effort comment.

    • bluGill
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      61 year ago

      I’ve been writing C++ for years and I have yet to be burned by undefined behavor. And because it exists the compiler doesn’t have to insert some slow if checks for places my code could do different things on different systems.

      I run undefined behavior sanitizer on everything. The only time it has ever complained was a case where my platform does define the behavior and I was intentionally relying on that.

      • @[email protected]
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        51 year ago

        The existence of undefined behaviour does not at all help performance. Those unnecessary if-checks are mostly a myth and even when they are introduced (e.g. bounds-checks when indexing arrays), they are usually outweight by the advantages of disallowing aliasing (references can be used much more “carelessly” without rutime checks, because these checks happen at compile time by default, comlilers can generally optimize code better because they know more about aliasing of specific data or the lack thereof). In larger, modern c++ projects a lot of smart pointers are used to enforce similar aliasing rules, which are then enforced at runtime though. Generally, the lack of undefined behaviour enables both programmers and compilers to design, architect and optimize code better. There are enough examples out there. Cloudflares in-house proxy solution comes to mind, which is written in rust and easily beats nginx (!!), serving billions of requests per day.

          • @[email protected]
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            11 year ago

            I don’t doubt that you can easily craft micro benchmarks out of very specific cases. My point was, that in real world applications, the advantages outweigh the disadvantages easily! And in a very tight loop of performance critical code where this might not be the case, you can still use unsafe and disable checks very carefully where you control the invariants yourself.

          • @[email protected]
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            11 year ago

            And, even more importantly: Depending on the use case, that work is not wasted! “You have a bug in your code” is very possible (more unlikely in rust due to its design, but still). If that bug triggers UB, chances are high you habe an exploitable security problem there. If it instead triggers a panic due to rusts checks, the app stopps in a clean way with a decent message and without a security vulnerability.

        • @[email protected]
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          11 year ago

          The only problem with that is that llvm, which the Rust compiler uses, is primarily designed for C++. Since this language always has aliasing, the compiler isn’t optimizing well for that situation. I think it’s fixed now, but for the first few years, rustc didn’t even supply the noalias attribute to the optimizer, because it was completely broken.

          • @[email protected]
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            11 year ago

            Yes, that optimization is finally enabled now. But even without it, programmers are less defensive when writing rust because of the freedom of UB, so they write more optimal code and use better architectures before the compiler even comes into play. It doesn’t show in micro benchmarks, but in more complex software that has been written in rust from the start it’s pretty obvious.

      • @teolan
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        21 year ago

        The only time it has ever complained was a case where my platform does define the behavior and I was intentionally relying on that.

        If by platform you mean target CPU you should be aware that it’s still undefined behaviour and that it could break optimizations, unless your compiler also makes a commitment to define that behavior that is stronger than what the standard requires.

        • bluGill
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          11 year ago

          I broke the one definition rule by having a symbol in two different .so files. The optimizer can’t optimize around this and on Linux the order of loading says who wins. On windows there are different rules, but I forget which.

          Of course if the optimizer could make an optimization I would be in trouble, but my build systems ensures that there is no optimizer that gets access to either definition.

    • @[email protected]
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      1 year ago

      Unlike C++, Rust doesn’t allow mutable memory aliasing. That’s because mutable aliasing can never happen in Safe Rust, and not supporting it improves performance. This means that when writing Unsafe Rust, one has to be careful about aliasing.

      Note though that it’s perfectly fine to have multiple mutable raw pointers pointing to the same data, as long as there’s no ownership held by any Rust code. The problem only happens if you try to convert them into references.

        • @[email protected]
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          11 year ago

          I left something important out from my explanation. Your example still holds ownership of the data, so that’s where the rules are violated with those raw pointers. You have to use Box::into_raw or something similar to disassociate the data from the Rust compiler. Then you can alias it using raw pointers.

        • Alonely0 🦀
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          01 year ago

          @soulsource @anlumo dude your whole code is UB. A reference & means that the data behind it never changes while any reference exists, allowing multiple pointers to point at it at the same time (aliasing); whereas a mutable reference &mut means that the data behind may only be read or written by that pointer, i.e. multiple pointers (aliasing) can’t exist. The compiler uses this to optimize code and remove stuff that you promise never happens. Always use miri, and go read the nomicon.

          • @[email protected]
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            11 year ago

            That was how I thought it works until yesterday. And Miri seems to confirm what I thought.

            But then there was this comment, that suggested otherwise: https://discuss.tchncs.de/comment/2544085

            Thanks for correcting my worldview, because after that playground behaved as it should if aliasing were allowed my worldview was kinda shattered. Oh, and I had completely forgotten that Playground has Miri built in.

    • @[email protected]
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      31 year ago

      Rust and Haskell are the only ones that have not yet made me scream at my PC

      As someone who likes Rust and uses it every day, how have you never screamed at your PC as a direct result of the borrow checker or trait solver? Have you never encountered errors such as higher-ranked lifetime error: failed to prove $FOO: Send, which is sometimes actually just a bug in the compiler? Or the classic the trait bound $FOO: $BAR is not satisfied. axum even has a #[debug_handler] macro just to improve this error. I have spent literal days of my life fixing these kinds of errors, when the compiler not only doesn’t provide a solution but fails to pinpoint the cause of the problem.

      I can only hope diagnostics continue to improve, because I know they matter to the Rust team.

      • @[email protected]
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        31 year ago

        I have seen some errors along those lines (but not exactly those) while working on the Free Monads proof of concept. Especially while trying to come up with a solution that doesn’t require macros (which I didn’t manage in Stable Rust, exactly due to such issues).

        I have yet to see them in actual production code though, but maybe I was just lucky up to now?

    • @crushyerbones
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      31 year ago

      Where do you work if I may ask? Every game company I worked at was pretty much set in their ways and I’d love to have an excuse to use rust professionally!

      • @[email protected]
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        21 year ago

        Before you get overly excited, we plan to introduce it later this year. As in game-dev “plan”, as in “it might be cut or delayed” 😜. What is holding us back is that we need time to get a Rust toolchain set up for all our target platforms, which have certain requirements that the toolchain needs to meet, and time is always a tight resource in game dev.

        That said: Our technical director is very adamant at pushing us towards a more functional programming style (his website explains why). If we could, we would go pure functional right now, but it’s really hard to find people who have experience with fully functional languages, and therefore we want to have the next-best thing, which is Rust. (Or F# for Unity projects. We don’t have any Unity projects right now, but we already have used F# in Rescue HQ, for instance.)

        And finally, to answer your questions: I work at stillalive studios. Here is a list of our open positions: https://stillalive.games/careers/ Also I can say from personal experience, that the “speculative application” paragraph is definitely true.

    • @[email protected]
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      21 year ago

      For instance, there would have been no need for the async keyword in the language itself.

      Can you explain how?

      • @[email protected]
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        21 year ago

        First things first: I haven’t fully thought this through, as I haven’t attempted to implement it (yet). It was just an idea I had while working on higher-free-macro.

        It wouldn’t yield the same syntax of course, but you could express the flow of the async computation in the terms of a Free Monad based embedded domain specific language. The interpreter for the eDSL in question would then do the equivalent of the async runtimes we have currently.

        I could imagine that the syntax could be pretty nice when using the do-notation from higher.

        However, since I haven’t tried implementing it, I can’t say for certain that there aren’t any hard walls one could hit, especially related to Rust’s ownership model, or more complex dependency trees.

  • @[email protected]
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    261 year ago

    Easy. If my editor shows no errors anymore, it will run, instead of crash due to my ignorance of alignment, leaks, etc.

    I’m just a lazy developer, so blame me if you want. I just don’t want to learn that stuff if I don’t really really need to. I have to memorize enough already.

    • @teolan
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      101 year ago

      As someone building embedded systems, the compile (in release mode otherwise the program does not even fit) + flash + run tests with limited visibility workflow is just soooo slow, have to do so little actual debugging thanks to the type system is a godsend.

  • Caveman
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    131 year ago

    The borrow checker maaaan

  • @SpaceNoodle
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    -381 year ago

    It’s a cult. A vocal minority doesn’t speak for an entire industry.

    • @[email protected]
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      1 year ago

      So the survey of 90k developers on one of the most popular programming sites, have it as the most “want to reuse it in the future” language for 8 years and this is somehow a minority?

      What is your data source for this enlightened majority that is opposed to it? Your own opinion?

      • Generally the programmers that visit these kinds of websites, let alone participate in a survey, are the enthusiast programmers who are much more likely to be interested in exploring a new language in the first place.

        There’s a considerable potential for a selection bias here. Not that this disproves the survey, but generally these kinds of surveys tend to be a little bit ahead of the curve, so to speak.

        • @[email protected]
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          31 year ago

          True, and in my experience these are the people that are most passionate, end up more easily in senior/lead roles and have a better say in what tech stack get used tomorrow. So I’m betting some of my time and career development on Rust.

    • Tobias Hunger
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      271 year ago

      Watch out: That mindset is what got me into Rust in the first place!

      I was so fed up with everybody drowning on about Rust that I thought I need to read up on it a bit so that I can argue against the hype. I am a seasoned C++ dev after all, I use a language that I picked because it allowed for robust and fast code. What could Rust add on top of that?

      Well, I have a job working almost exclusively with rust now and do not plan to ever go back.

      • @[email protected]
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        21 year ago

        As mostly a novice (interested, but unpracticed) programmer I see it as an updated/upgraded C family language?

        I don’t think there would be a large learning curve?

        • Tobias Hunger
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          61 year ago

          The basics are all the same:. memory, cpus and caches in between ;-)

          But rust does approach many things very differently from C or C++. Learning those new approaches takes time and practice.

    • @[email protected]
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      91 year ago

      Coding is and always has been fad driven. The article admits Python and so on are more popular.

      • @[email protected]
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        1 year ago

        Yes, but all programmers have a love/hate relationship to their languages and toolchains. When I started off back in the 90:s, my prefereed language was Perl, it was amazing, but it was also a nightmare in some aspects… and unfortunately the larger the project the larger the nightmares. I assume Python is probably pretty much the same, even though I have avoided to work with dynamic languages in very large scale projects due to the support nightmares that comes with them. So I assume the Rust cult, is based on the fact that the rust frustration comes a lot from the strictness of the language, but that becomes less of a problem the more you use it (since your skills improve) and at that point the strictness instead gives the reward of reliability and efficiency.

        So, while dynamic languages may frustrate you the more you use it (since the projects grows and it is a nightmare to maintain), rust will instead reward you over time.

      • @SpaceNoodle
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        11 year ago

        The dogpiling circlejerkers don’t concern me.