this post was submitted on 09 Apr 2024
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Linux is a family of open source Unix-like operating systems based on the Linux kernel, an operating system kernel first released on September 17, 1991 by Linus Torvalds. Linux is typically packaged in a Linux distribution (or distro for short).
Distributions include the Linux kernel and supporting system software and libraries, many of which are provided by the GNU Project. Many Linux distributions use the word "Linux" in their name, but the Free Software Foundation uses the name GNU/Linux to emphasize the importance of GNU software, causing some controversy.
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Why do programs install somewhere instead of asking me where to?
EDIT: Thank you all, well explained.
Someone already gave an answer, but the reason it's done that way is because on Linux, generally programs don't install themselves - a package manager installs them. Windows (outside of the windows store) just trusts programs to install themselves, and include their own uninstaller.
Because Linux and the programs themselves expect specific files to be placed in specific places, rather than bunch of files in a single program directory like you have in Windows or (hidden) MacOS.
If you compile programs yourself you can choose to put things in different places. Some software is also built to be more self contained, like the Linux binaries of Firefox.
Actually, windows puts 95% of it files in a single directory, and sometimes you get a surprise DLL in your \system[32] folder.
you install program A, it needs and installs libpotato then later you install program B that depends on libfries, and libfries depends on libpotato, however since you already have libpotato installed, only program B and libfries are installed The intelligence behind this is called a package manager
In windows when you install something, it usually installs itself as a standalone thing and complains/reaks when dependencies are not met - e.g having to install Visual C++ 2005-202x for games, JRE for java programs etc
instead of making you install everything that you need to run something complex, the package manager does this for you and keep tracks of where files are
and each package manager/distribution has an idea of where some files be stored
I wish every single app installed in the same directory. Would make life so much easier.
They do!
/bin
has the executables, and/usr/share
has everything else.Apps and executables are similar but separate things. An app is concept used in GUI desktop environments. They are a user-friendly front end to one or more executable in
/usr/bin
that is presented by the desktop environment (or app launcher) as a single thing. On Linux these apps are usually defined in a.desktop
file. The apps installed by the Linux distribution's package manager are typically in/usr/share/applications
, and each one points to one of the executables in/usr/bin
or/usr/libexec
. You could even have two different "apps" launch a single executable, but each one using different CLI arguments to give the appearance of different apps.The desktop environment you use might be reconfigured to display apps from multiple sources. You might also install apps from FlatHub, Lutris, Nix, Guix, or any of several other package managers. This is analogous to how in the CLI you need to set the "
PATH
" environment variable. If everything is configured properly (and that is not always the case), your desktop environment will show apps from all of these sources collected in the app launcher. Sometimes you have the same app installed by multiple sources, and you might wonder "why does Gnome shell show me OpenTTD twice?"For end users who install apps from multiple other sources besides the default app store, there is no easy solution, no one agreed-upon algorithm to keep things easy. Windows, Mac OS, and Android all have the same problem. But I have always felt that Linux (especially Guix OS) has the best solution, which is automated package management.
Not all. I've had apps install in opt, flatpaks install in var out of all places. Some apps install in /etc/share/applications
In
/etc
? Are you sure?/usr/share/applications
has your system-wide.desktop
files, (while.local/share/applications
has user-level ones, kinda analogous to installing a program toAppData
on Windows). And.desktop
files could be interpreted at a high level as an "app", even though they're really just a simple description of how to advertise and launch an application from a GUI of some kind.OK, that was wrong. I meant usr/share/applications. Still, more than one place.
The actual executables shouldn't ever go in that folder though.
Typically packages installed through a package manager stick everything in their own folder in
/usr/lib
(for libs) and/usr/share
(for any other data). Then they either put their executables directly in/usr/bin
or symlink over to them.That last part is usually what results in things not living in a consistent place. A package might have something that qualifies as both an executable and a lib, so they store it in their lib folder, but symlink to it from bin. Or they might not have a lib folder, and just put everything in their share folder and symlink to it from bin.
There is also /sbin or /usr/sbin, for executables only available to the superuser.
Expanding on the other explanations. On Windows, it's fairly common for applications to come with a copy of everything they use in the form of DLL files, and you end up with many copies of various versions of those.
On Linux, the package manager manages all of that. So if say, an app needs GTK, then the package manager makes sure GTK is also installed. And since your distribution's package manager manages everything and mostly all from source code, you get a version of the app specifically compiled for that version of GTK the distribution provides.
So if we were to do it kind of the Windows way, it would very, very quickly become a mess because it's not just one big self contained package you drop in
C:\Program Files
. Linux follows the FSH which roughly defines where things should be. Binaries go to/usr/bin
, libraries to/usr/lib
, shared files go to/usr/shared
. A bunch of those locations are somewhat special, for example .desktop files in/usr/share/applications
show up in the menu to launch them. That said Linux does have a location for big standalone packages: that's usually/opt
.There's advantages and inconveniences with both methods. The Linux way has the advantage of being able to update libraries for all apps at once, and reduce clutter and things are generally more organized. You can guess where an icon file will be located most of the time because they all go to the same place, usually with a naming convention as well.
Because dependencies. You also should not be installing things you download of the internet nor should you use install scripts.
The way you install software is your distros package manager or flatpak
different strokes.
windows comes from the personal computing world and retains a bunch of stuff from it to this very day for no good reason, in this case there used to be no guarantee that a particular installation target would have the target directory mapped in a consistent way so the installer would make a guess and give the user a chance to change it.
if that sounds stupid, it is. no one writes in assembly anymore, they target the OS and nowadays the OS will have a consistent set of folders to install stuff to. we all know where the program "should" be installed to already.
but it didn't used to be like that in the PC world! used to be your computer wasn't a fixed purpose windows computer from the jump, never to be anything else. there were different OSes that people would use regularly and even different DOS environments which a person could use to run programs under. Hard disks weren't disks inside the machine, but big beige external disks that you'd plug up, set beside the computer and access after booting. in that setup where a programmer targeted DOS (if they cared about the execution environment at all and didn't just write for the processor) it made sense to ask where someone was gonna want to install their software, and to what extent they'd even want to start dirtying up the media they paid good money for with some knuckleheads weird files from some goofy program on a stack of floppy disks.
linux comes from the unix world, where the question of where something installs is easy and straightforward: it installs in $PATH. what is $PATH? it's where the os will look when you try to run something to see if it can run any program by that name. if a program isn't installed in $PATH then when you type its' name in and hit enter the computer won't know what the hell youre talking about and you'll have to type it's whole ass location out and hit enter.
Why didn't unix systems that linux imitates ask you where to install stuff? because usually it wasn't your choice! linux was unix for personal computers and unix was run on systems that took up whole rooms with all sorts of equipment. you might be the user of that system but never have access to the room with all the spinning disks and flashing lights, stuck on a terminal dialing in over a serial line.
so the assumption was that you'd have a variable in your user environment that would say where things were installed but not that you'd have the ability to change it or even install things.
so why in a linux environment would you ever install anything outside of $PATH or even want to be sure where something's installed at all?
even under linux it can be useful to do either. installing outside of path keeps programs from being accidentally autocompleted or invoked. installing in a particular component of $PATH ($PATH can be many directories!) lets you put serious business programs that demand maximum performance on faster media.
so why the hell won't linux systems give you the option of installing in a specific location or outside of $PATH altogether?
they will, but unlike windows, they don't ask you. unless you specifically ask to do that unique and very abnormal operation, they just do the usual thing. when you want to install weirdly you gotta dig into your package manager and packaging system. sometimes you unzip a package and change a line in a file then zip it back up and install from your modified version.