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Joined 1 year ago
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Cake day: June 15th, 2023

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  • The big downside is that, for backwards compatibility, the default must still be unsafe code. Ideally this could be toggled with a compiler flag, rather than having to wrap most code in “safe” blocks (like rust, but backwards).

    One potential upside that people don’t seem to be discussing is that the safe subset could also be the place to finally start cutting down the bloat of C++. We could encourage most developers to write exclusively in the safe subset, and aim to make that the “much smaller and cleaner language” trying to get out of C++.


  • Obviously there’s a lot of caveats about how representative this survey (or any other survey) is of the broader population, but I think this is a good reminder of how weird we all are. Nobody on here claims to use Ubuntu or Manjaro, yet they are more popular than Fedora (and potentially even arch, when steam decks are discounted).

    There’s nothing wrong with that, I love the weirdness of the Lemmy Linux community! I just always think it’s good to appreciate when opinions (like my love of ublue) aren’t as popular as you think they are.


  • Please somebody correct me if I’m wrong, but I really don’t find the “chip makers don’t have to pay licence fees” a compelling argument that RISC-V is good for the consumer. Theres only a few foundries capable of making CPUs, and the desktop market seems incredibly hard to break into.

    I imagine it’s likely that the cost of ISA licencing isn’t what’s holding back competition in the CPU space, but rather its a good old fashioned duopoly combined with a generally high cost of entry.

    Of course, more options is better IMO, and the Linux community’s focus on FOSS should make hopping architectures much easier than on Windows or MacOS. But I’d be surprised if we see a laptop/desktop CPU based on RISC-V competing with current options anytime soon.


  • In my experience it Just Works ™️. I spin up a distro/toolbox, compile some software (e.g. Emacs) then run the executable inside the container, and up pops the GUI window.

    If you use distrobox, you can even distrobox-export desktop files, at which point a containerised gui application is practically indistinguishable from one installed on the host system


  • Its all about how an application goes from “I would like to display X on a screen” to how X actually gets displayed. Wayland is effectively a language (technically a protocol) that graphical applications can speak to describe how they would like to be drawn. It’s then up to a different program more deeply embedded in your OS to listen to and act on those instructions (this program is called a Wayland compositor). There’s a lot more to it (handling keyboard input monitor settings, etc), but that’s the general idea.

    Wayland is a (relatively) new way of thinking about this process, that tries to take into account the wide variety of input and output devices that exist today, and also tries to mitigate some of the security risks that were inherent to previous approaches (before Wayland, it was very easy for one application to “look at” what was being displayed in a completely different app, or even to listen to what keys were being typed even when the app isn’t focussed).

    Thing is, change is hard, doubly so in the consensus driven world of Linux/FOSS. So, until the last couple of years or so, adoption of Wayland was quite slow. Now we’re at the point where most things work at least as well in Wayland, but there’s still odd bits of software that either haven’t been ported, or that still rely on some features that don’t exist in Wayland, often because of the aforementioned security risks.











  • Isn’t production JavaScript usually minified/obfuscated to make it hard to read?

    Also wasm is actually bytecode, which I believe has a 1:1 conversion into a text-based format called wat.

    I agree with your main point though, it’s kinda creepy when you realise just how much we are expected to allow other people’s code to run on our machines.


  • There’s a common thread between a lot of the missteps listed here and Embeacer group’s recent troubles. The idea that you could fund 230 Spiderman 2’s for the same price as buying 1 Activision-Blizzard-King really drove the point home to me.

    The problem (in my obviously uneducated opinion) is that when you spend so much money in acquisition, especially of established companies, you’re neither funding nor rewarding innovation. You spend $70B on ABK and some randos in suits get a huge payout that they invest in oil or crypto or whatever. Spend $70B on talent and early career devs and you could unleash a tidal wave of creativity and experimentation.


  • By default, XWayland apps are now allowed to listen for non-alphanumeric keypresses, and shortcuts using modifier keys. This lets any global shortcut features they may have work with no user intervention required, while still not allowing arbitrary listening for alphanumeric keypresses which could potentially be used maliciously

    This is… very smart actually. Any reason this is limited to Xwayland? (Is that XDG portal a thing yet?)



  • The point of Linux on phones isn’t to have a phone that requires you to constantly fix it with CLI tools. The point is to have a free and open software platform for a device that is increasingly necessary for daily life.

    As a side effect, developing Linux for phones would probably help us eliminate the need to reach for the terminal on desktop Linux as well. I believe snaps (which laid the groundwork for flatpaks) were originally developed for Linux on “smart” devices. The whole ecosystem improves when we try to bring Linux into a new domain.

    P.S. I use termux (a terminal for android complete with its own tiny Linux environment) from time to time when I need to access my server over SSH. It’s a bit clumsy, but super handy!