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Cake day: June 14th, 2023

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  • My workplace is a strictly BitBucket shop, was interested in expanding my skillset a little, experiment with different workflows. Was using it as a fancy ‘todo’ list - you can raise tickets in various categories - to remind myself what I was wanting to do next in the game I was writing. It’s a bit easier to compare diffs and things in a browser when you’ve been working on several machines in different libraries than it is in the CLI.

    Short answer: bit of timesaving and nice-to-haves, but nothing that you can’t do with the command line and ssh. But it’s free, so there’s no downside.


  • Ah, nice. Had been experimenting with using my Raspberry Pi 3B as my home Git server for all my personal projects - easy sync between my laptop and desktop, and another backup for the the stuff that I’d been working on.

    Tried running Gitea on it to start with, but it’s a bit too heavy for a device like that. Forgejo runs perfectly, and has almost exactly the same, “very Github inspired” interface. Time to run some updates…



  • Well; you could use that engine to produce something well-written, deep and interesting like New Vegas, but that still got dinged for being an absurdly bug-ridden release with serious performance issues. It was great despite the engine, not because.

    There’s some slightly-shonky open world engines that support some really impressive RPGs (eg. Baldur’s Gate 3 on the Divinity engine - looks great but performance is arseholes) and some very impressive open-world engines that support some lightweight RPGs (eg. Horizon Forbidden West on the Decima engine - looks great and smooth as butter). And then you’ve got the Creation engine, which looks terrible and has terrible performance, and which runs bugs and glitches in a way that combines into (usually) very shallow RPGs.



  • Because if you disable browser autocomplete, what’s obviously going to happen is that everyone will have a text file open with every single one of their passwords in so that they can copy-paste them in. So prevent that. But what happens if you prevent that is that everyone will choose terrible, weak passwords instead. Something like September2025! probably meets the ‘complexity’ requirement…


  • addie@feddit.uktoProgrammer Humor@programming.devPsychopath Dev
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    2 months ago

    A bit like when we renamed all the master/slave terminology using different phrasing that’s frankly more useful a lot of the time, I think it’s about time we got rid of this “child” task nonsense. I suggest “subtask”. Then we can reword these books into something that no-one can make stupid jokes about any more, like “how to keep your subs in line” and “how to punish your subs when they’ve misbehaved”.


  • Well now. When we’ve been enforcing password requirements at work, we’ve had to enforce a bizarre combination of “you must have a certain level of complexity”, but also, “you must be slightly vague about what the requirements actually are, because otherwise it lets an attacker tune a dictionary attack against you”. Which just strikes me as a way to piss off our users, but security team say it’s a requirement, therefore, it’s a requirement, no arguing.

    “One” special character is crazy; I’d have guessed that was a catch-all for the other strange password requirements:

    • can’t have the same character more than twice in a row
    • can’t be one of the ten-thousand most popular passwords (which is mostly a big list of swears in russian)
    • all whitespace must be condensed into a single character before checking against the other rules

    We’ve had customers’ own security teams asking us if we can enforce “no right click” / “no autocomplete” to stop their users in-house doing such things; I’ve been trying to push back on that as a security misfeature, but you can’t question the cult thinking.


  • Dark Souls’ implementation is something special. Censors your name based on the language settings you have in place at the time, voice-over dialogue remains in English. So change your system language to either another language you know, or play it a few times so you know what things are, and then put the most offensive shit in as your character name you like.


  • When I was still dual-booting Windows and Linux, I found that “raw disk” mode virtual machines worked wonders. I used VirtualBox, so you’d want a guide somewhat like this: https://superuser.com/questions/495025/use-physical-harddisk-in-virtual-box - other VM solutions are available, which don’t require you to accept an agreement with Oracle.

    Essentially, rather than setting aside a file on disk as your VM’s disk, you can set aside a whole existing disk. That can be a disk that already has Windows installed on it, it doesn’t erase what you have. Then you can start Windows in a VM and let it do its updates - since it can’t see the bootloader from within the VM, it can’t fuck it up. You can run any software that doesn’t have particularly high graphics requirement, too.

    I was also able to just “restart in Windows” if I wanted full performance for a game or something like that, but since Linux has gotten very good indeed at running games, that became less and less necessary until one day I just erased my Windows partition to recover the space.



  • You can write an unmaintainable fucking mess in any language. Rust won’t save you from cryptic variable naming, copy-paste code, a complete absence of design patterns, dreadful algorithms, large classes of security issues, unfathomable UX, or a hundred other things. “Clean code” is (mostly) a separate issue from choice of language.

    Don’t get me wrong - I don’t like this book. It manages to be both long-winded and facile at the same time. A lot of people seem to read it and take the exact wrong lessons about maintainability from it. I think that it would mostly benefit from being written in pseudocode - concentrating on any particular language might distract from the message. But having a few examples of what a shitfest looks like in a few specific languages might help


  • My old job had a lot of embedded programming - hard real-time Z80 programming, for processors like Z800s and eZ80s to control industrial devices. Actually quite pleasant languages to do bit-twiddling in, and it’s great to be able to step through the debugger and see that what the CPU is running is literally your source code, opcode by opcode.

    Back when a computers were very simple things - I’m thinking a ZX Spectrum, where you can read directly from the input ports and write directly into the framebuffer, no OS in your way just code, then assembly made a lot of sense, was even fun. On modem computers, it is not so fun:

    • x64 is just a fucking mess

    • you cannot just read and write what you want, the kernel won’t let you. So you’re going to be spending a lot of your time calling system routines.

    • 99% of your code will just be arranging data to suit the calling convention of your OS, and doing pointless busywork like stack pointer alignment. Writing some macros to do it for you makes your code look like C. Might as well just use C, in that case.

    Writing assembly makes some sense sometimes - required for embedded, you might be writing something very security conscious where timing is essential, or you might be lining up some data for vectorisation where higher-level languages don’t have the constructs to get it right - but these are very small bits of code. You would be mad to consider “making the whole apple pie” in assembly.


  • PS3 most certainly had a separate GPU - was based on the GeForce 7800GTX. Console GPUs tend to be a little faster than their desktop equivalents, as they share the same memory. Rather than the CPU having to send eg. model updates across a bus to update what the GPU is going to draw in the next frame, it can change the values directly in the GPU memory. And of course, the CPU can read the GPU framebuffer and make tweaks to it - that’s incredibly slow on desktop PCs, but console games can do things like tone mapping whenever they like, and it’s been a big problem for the RPCS3 developers to make that kind of thing run quickly.

    The cell cores are a bit more like the ‘tensor’ cores that you’d get on an AI CPU than a full-blown CPU core. They can’t speak to the RAM directly, just exchange data between themselves - the CPU needs to copy data in and out of them in order to get things in and out, and also to schedule any jobs that must run on them, they can’t do it themselves. They’re also a lot more limited in what they can do than a main CPU core, but they are very very fast at what they can do.

    If you are doing the kind of calculations where you’ve a small amount of data that needs a lot of repetitive maths done on it, they’re ideal. Bitcoin mining or crypto breaking for instance - set them up, let them go, check in on them occasionally. The main CPU acts as an orchestrator, keeping all the cell cores filled up with work to do and processing the end results. But if that’s not what you’re trying to do, then they’re borderline useless, and that’s a problem for the PS3, because most of its processing power is tied up in those cores.

    Some games have a somewhat predictable workload where offloading makes sense. Got some particle effects - some smoke where you need to do some complicated fluid-and-gravity simulations before copying the end result to the GPU? Maybe your main villain has a very dramatic cape that they like to twirl, and you need to run the simulation on that separately from everything else that you’re doing? Problem is, working out what you can and can’t offload is a massive pain in the ass; it requires a lot of developer time to optimise, when really you’d want the design team implementing that kind of thing; and slightly newer GPUs are a lot more programmable and can do the simpler versions of that kind of calculation both faster and much more in parallel.

    The Cell processor turned out to be an evolutionary dead end. The resources needed to work on it (expensive developer time) just didn’t really make sense for a gaming machine. The things that it was better at, are things that it just wasn’t quite good enough at - modern GPUs are Bitcoin monsters, far exceeding what the cell can do, and if you’re really serious about crypto breaking then you probably have your own ASICs. Lots of identical, fast CPU cores are what developers want to work on - it’s much easier to reason about.


  • Yes, because it doesn’t do as much to protect you from data corruption.

    If you have a use case where a barely-measurable increase in speed is essential, but not so essential that you wouldn’t just pay for more RAM to keep it in cache, and also it doesn’t matter if you get the wrong answer because you’ve not noticed the disk is failing, and you can afford to lose everything in the case of a power cut, then sure, use a legacy filesystem. Otherwise, use a modern one.





  • emerges from a brand you’ve probably never heard of

    Writing this on a Tuxedo Pulse 14 / gen 3 as we speak. Great little laptop. I’d wanted something with a few more pixels than my previous machine, and there’s a massive jump from bog-standard 1080p to extremely expensive 4K screens. Three megapixel screen at a premium-but-not-insane price, compiles code like a champion, makes an extremely competent job of 3D gaming, came with Linux and runs it all perfectly.

    “Tuxedo Linux”, which is their in-house distro, is Ubuntu + KDE Plasma. Seemed absolutely fine, although I replaced it with Arch btw since that’s more my style. Presumably they’re using Debian for the ARM support on this new one? This one runs pretty cold most of the time, but you definitely know that you’ve got a 54W processor in a very thin mobile device when you try eg. playing simulation games - it gets a bit warm on the knees. “Not x64” would be a deal-breaker for my work, but for most uses the added battery life would be more valuable than the inconvenience.