This reminds me of a great video about this sort of principle in reverse: https://youtu.be/wBBnfu8N_J0
This reminds me of a great video about this sort of principle in reverse: https://youtu.be/wBBnfu8N_J0
I enjoy OpenMW and I’m happy to host if you want, although my instance is basically just me and a few friends right now.
I’ve used a number of different Linux distros (including Debian) on laptops over the years. Although most recently my XPS 15 was running Arch.
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Gotta get those five stars
I think they’re lawful evil, more devils than demons.
I use Alpine Linux quite a bit, which is a Linux distro that doesn’t use the GNU coreutils or glibc.
Also even giving GNU such a high level in the name on a distro like Arch makes little sense imo because other components like systemd are arguably much more important than one of many libc libraries you can optionally use and a bunch of coreutils you can also optionally use.
In my experience I haven’t had an issue because usually the refactorings are small. If they’re not I just hop on a call with the person who wrote the MR and ask them to walk me through it.
In theory I’d like to have time to dedicate solely to code health, but that’s not quite the situation in basically any team I’ve been in.
You should refactor as needed as you go because refactoring cases are never gonna be prioritised.
There’s a markdown entry thing in the drop down menu that’ll convert your MD to their formatting.
I attempted to boot Mandrake/Mandrivia on an old laptop once and failed, then I mucked around in Slackware’s live CD for an afternoon. The first thing I actually installed and used daily was Ubuntu 10.04.
I’m running on 0.19.3 without any issues on Linux arm64. I built my own docker image though.
The web is built on hot linking hypermedia. It is more fragile obviously, but it distributes the bandwidth and storage load. If nobody hotlinked, then small forum admins/Lemmy admins/etc. have considerably more cost to bear.
Rust is roughly similar to C in most of these benchmarks and beats it in a few: https://benchmarksgame-team.pages.debian.net/benchmarksgame/fastest/rust.html
Arguably when LLVM gets a bit better, Rust can be even faster than C because rust can be optimised in more places safely than C code can. The issue is that LLVM wasn’t written with that in mind, so some performance is left on the table.
Go, Java, and Nim (in most cases) are all memory safe but are generally slower than C or C++ due to the ways they achieve memory safety.
Rust’s memory safety approach is zero-cost performance wise, which makes it practical for low level, high throughput, and low latency applications.
That flag exists, it’s called unsafe
for if you need to tell the borrow checker to trust you or unwrap
if you don’t want to deal with handling errors on most ADTs.
You can always cast anything to an unmanaged pointer type and use it in unsafe code.
A crash is different to a SEGFAULT. I’d be very surprised to see a safe rust program segfault unless it was actively exploiting a compiler bug.
As a compiler developer this speaks to me on a deep level lol
((a, b) => a ?? b)();
const fn = (a, b) => a ?? b
It uses other signals too, like what other sites you’ve visited with that checkbox on it, what CloudFlare has seen your IP address doing in the past, etc.
The google one is able to see if you’re logged into a google account and take that into account.
There’s even a new variant of the Google captcha that is invisible and doesn’t even bother to show a checkbox.