Maybe some Lua, as a treat?
Maybe some Lua, as a treat?
If Qt or Java is doing it, then that’s still your program and not the WM, though?
The server is used for hole punching, to open up a P2P connection thorugh NATs and Firewalls. If it doesn’t work the server also relays the traffic between the clients.
Getting an end to end connection through todays internet is unfortunately not easy for an average user.
Using modern UEFI booting with a 1GB shared ESP and grub2 has worked just fine for me in the last 8 years. os-prober has always just found the Windows install and generated the necessary boot entry for grub. Windows has never trespassed into the Fedora or Ubuntu folder of the ESP as far as I can tell.
by all accounts
Wouldn’t that include the aforementioned documentaries?
A microkernel teaching OS by Andrew S. Tanenbaum.
In 2017 the world (including Tanenbaum) found out that the Intel Management Engine uses Minix internally. Intel just kind of did that silently. So Minix is still around.
Battlefield 1942 theme song
Isn’t that more like:
Dudun-dun-dundundun
Dudun-dun-dundundun
Dudun-dun-dundundun
Dudun-dun-dundundun
ad infinitum
nix-darwin is kind of nice too, but only really for CLI tools. You can let nix-darwin manage your homebrew for GUI stuff, if you want.
I’d still take linux if I could though. macOS is just work mandated.
Mine sure doesn’t. I send it to sleep (since you can’t send it directly to hibernate like a normal OS), and the next day the battery is empty and it won’t start. This happens about once a month, and I haven’t found the common variable yet.
I wrote a script to turn the power of the the Wifi+Bluetooth chip off, then enumerate the PCIe bus again to start it back up.
The chip sometimes hung itself when using both. I looked for the bug and even found an Intel engineer on some mailing list admitting that they had issues with coexistance mode.
Just turning the wireless off and back on wasn’t enough I needed to reeinitialize the hardware and that was the best way I knew.
Programming in C and C++ just seemed way easier on Linux at the time.
The assistants at university would frequently distribute virtualbox images with Ubuntu within which we were supposed to do the homework. At some point I decided that just putting Ubuntu on my laptop directly would be easier because GCC is just right there in the repos, plus I was a little interested anyway.
Then it just kept being easy, for Java, Haskell, Scala, Python, everything was just supported nicely. The network simulators we used were Linux native, the course where we were reverse engineering binaries used GDB, Android development was simple with the tools and simulator being in the repos.
That said for gaming I still use Windows. And my workplace forces me to use macOS.
It’s phytoestrogen, dummy Anon.
deleted by creator
You propose an interesting approach. I just wonder how the individual streaks of different rust interact with typical graphics pipelines. You can certainly ship a generator, but then for rasterizing the image the texture still has to be generated and shipped off to GPU memory to be used in shaders, won’t you blow through VRAM limits or shader cache limits by having no texture reuse anywhere?
What is special about today?
Talk about high risk low to medium reward, holy shit what a daredevil