I recently wanted to run tegaki, and my experience is pretty much summed up by the meme. I consider myself fairly tech-savvy, but I just couldn’t figure out how to compile it. So I just gave up, downloaded the .exe
and put it into a fresh wine prefix. After installing CJK fonts, everything ran fine. Now I’m trying to get gpaint to work. My distro recently dropped support for [[[ EDIT: gtk2 is alive and well. I was just being and idiot and searching for gtk+2
(which I am fairly pissed about, since it’s the last good version of GTK+), so I have to set that up manually as well.gtk2
, when the package is actually called gtk+2
. ]]] I installed all of the dependencies that ./configure
told me to, but I still kept getting obscure errors when running make
.
So, here’s my question: what tools make the process of running abandonware easier? Docker containers? Also, what can I use to package abandonware in order to make it easy for other people to run? Flatpak? Appimages? Any advice is appreciated!
Also, inb4 “just find a modern alternative”. That would be a reasonable solution. I don’t want reasonable solutions!
just another Monday
Or you find an AUR someone built years ago
That’d be one of those many broken AUR packages that won’t compile.
One day someone’s posts how all Linux programs run forever and Windows creates abandonware
Another day someone complains about the Linux version of his program not tuning anyone so he has to use the Windows version
I’m not sure what’s going on anymore
In the unix world, truly great programs tend to stay around for ever.
less
has been around since 1983.grep
was there ten years earlier. Linux users lovevim
. What does the “v” stand for, you ask? “Visual”, of course, because it was one of the first text editors to offer support for computer monitors. And before that, when we had teletypes, people useded
, which still comes pre-installed with Ubuntu. Not to mention that the modern linux terminal is basically emulating (that’s why we called them terminal emulators) an electronic typewriter with some extra extensions for color and cursor support. They’re backwards compatible to this day. That’s why it says tty (teletype) when you pressctrl-alt-F2
.The caveat is that these examples are all low-level programs that have few dependencies. And they are extremely useful, therefore well-maintained. When it comes to more complex programs with a lot of dependencies, unless there is someone to keep it updated with the latest versions of those dependencies, it will eventually get broken.
The reason this happens less often in W*ndows is because w*ndows historically hasn’t had a package manager, forcing devs to bundle all their dependencies into the executables. Another part of the reason is that m*cros*ft would lose a lot of business customers if they broke some obscure custom app with a new update, so they did their best to keep everything backwards compatible. Down to the point of forbidding you from creating a file named
AUX
in order to keep support for programs written for qdos, an OS from before filesystems were invented.The reason this happens less often in Wndows is because wndows historically hasn’t had a package manager, forcing devs to bundle all their dependencies into the executables
Thanks that’s pretty informative
Why isn’t there a way for Linux users to automatically install every missing dependency for a program? Not sure if this will net me a ban here but the W*ndows way kind of looks superior here. Having old programs break with updates is a massive pain.
isn’t there a way for Linux users to automatically install every missing dependency for a program?
Great question! There is. What you’re describing is a package manager. Overall, they are a great idea. It means devs can create smaller “dynamically linked” executables that rely on libraries installed by the package manager. The w*ndows equivalent of this is using DLL’s. Another advantage is that urgent security updates can be propagated much faster, since you don’t have to wait for each app that uses a vulnerable library to update it on their own. Also, dynamically linked executables can help save on ram usage. With statically linked executables, everyone brings their own versions of some library, all off them off by a few minor revisions (which all have to be loaded into ram separately), whereas a bunch of dynamically linked executables can all pointed to the same version (only needs to be loaded once), which is what package maintainers often do. Finally, package managers eradicate the need for apps to include their own auto-updaters, which benefits both developers and users.
This model goes wrong when software depends on an outdated library. Even if the package maintainers still provide support for that outdated version, often it’s difficult to install two wildly different versions of a library at the same time. And apart from libraries, there are other things that a program can depend on, such as executables and daemons (aka background processes aka services), old versions of which are often even more difficult to get running along with their modern counterparts.
So when you say that the “W*ndows way kind of looks superior here”, you are right about the specific edge case of running legacy apps. It just happens that the Linux crowd has historically decided that the other benefits of package managers outweigh this disadvantage.
There are tools for developers to bundle dependencies. Statically linked binaries, “portable” apps, AppImage, and so on… It’s just that package managers are so widespread (because of the aforementioned benefits), few developers bother with these. The general attitude is “if you want a statically linked executable, go compile it yourself”. And by the time it’s time to make an “archiveable” version of an app because it’s abandoned… nobody bothers, because it’s, well, abandoned.
However, as disk capacity and ram size steadily increase, people are starting to question whether the benefits of traditional package managers really outweigh the added maintenance cost. This, combined with the recent development of a linux kernel feature called “namespaces”, has spawned various new containerization tools. The ones I am familiar with are Docker (more suited for developer tools and web services), and Flatpak (more suitable for end-user desktop apps). I personally use both (flatpak as a user, and docker as both a user and a developer), and it makes my life a whole lot easier.
As for what makes it easier for users to get old apps working (which is what you’re asking), well… that’s sort of what we are discussing in this thread. Again, these tools aren’t very widespread, because there is rarely a practical reason for running legacy programs, other than archivism or nostalgia. More often than not, modern and maintained alternatives are available. And when their is a practical reason, it is often in the context of development tools, where the user is probably skilled enough to just Dockerize the legacy program themselves (I did this a couple times at a job I used to have).