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I hope this doesn’t come across as a stupid question but it’s always something I have wondered. Both Windows (Win32 API) and OS X (Cocoa) have their own APIs to handle windows, events and other OS stuff. I have never really got a clear answer as to what Linux’s equivalent is.

I have heard some people say GTK+, but GTK+ being cross platform, how can it be native?

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Joni is correct: "In Linux the graphical user interface is not a part of the operating system... X Window System defines a network protocol for [GUI capabilities]. Toolkit libraries such as Gtk+ (used by Gnome) and QT (used by KDE), built on top of Xlib." – paulsm4 Oct 3 '12 at 21:43
on the contrary, David, this is an excellent inquiry – amphibient Oct 3 '12 at 21:51
I agree - I've read "The Linux Programming API" and "Systems Programming... Unix" which are the two bibles on the kernel & API, and this question never occurred to me :) The answers are interesting. – John Humphreys - w00te Oct 3 '12 at 22:02
The Win32 API is also cross-platform if you include Wine.. – Brendan Long Oct 4 '12 at 0:06
BTW Windows has WIN32/WIN64 subsystems which implement a lot of the same for the 'Windows Look and Feel - aka WIN32' amongst other things. These subsystems operate above the NT kernel. The APIs for these are different. For example C: is a WIN32 abstraction, not an NT kernel thing. Same for some of the windowing functionality. Windows also had Unix subsystems that are available (that support X11 to some degree). – Preet Sangha Oct 9 '12 at 21:45

8 Answers 8

up vote 417 down vote accepted

In Linux the graphical user interface is not a part of the operating system. The graphical user interface found on most Linux desktops is provided by software called the X Window System, which defines a device independent way of dealing with screens, keyboards and pointer devices.

X Window defines a network protocol for communication, and any program that knows how to "speak" this protocol can use it. There is a C library called Xlib that makes it easier to use this protocol, so Xlib is kind of the native GUI API. Xlib is not the only way to access an X Window server; there is also XCB.

Toolkit libraries such as GTK+ (used by GNOME) and Qt (used by KDE), built on top of Xlib, are used because they are easier to program with. For example they give you a consistent look and feel across applications, make it easier to use drag-and-drop, provide components standard to a modern desktop environment, and so on.

How X draws on the screen internally depends on the implementation. has a device independent part and a device dependent part. The former manages screen resources such as windows, while the latter communicates with the graphics card driver, usually a kernel module. The communication may happen over direct memory access or through system calls to the kernel. The driver translates the commands into a form that the hardware on the card understands.

Update 2013: A new window system called Wayland is starting to become usable, and many distributions have said they will at some point migrate to it, though there is still no clear schedule. This system is based on OpenGL/ES API, which means that in the future OpenGL will be the "native GUI API" in Linux. Work is being done to port GTK+ and QT to Wayland, so that current popular applications and desktop systems would need minimal changes. The applications that cannot be ported will be supported through an X11 server, much like OS X supports X11 apps through Xquartz. The GTK+ port is expected to be finished within a year, while Qt 5 already has complete Wayland support.

To further complicate matters, Ubuntu has announced they are developing a new system called Mir because of problems they perceive with Wayland. This window system is also based on the OpenGL/ES API.

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Spot on - excellent response! IMHO... – paulsm4 Oct 3 '12 at 21:43
+1. Since when does an operating system have to have a GUI, implying that if it doesn't it's not an OS? Nonsense. – David Hammen Oct 3 '12 at 22:32
Even Windows was originally just a program that ran on top of DOS. – dan04 Oct 4 '12 at 3:54
@DavidHammen It's obvious. Every OS needs a GUI because otherwise you can't hook up your mouse to your NAT router, and a NAT router without mouse support is obviously useless. (irony) – Michael Kjörling Oct 4 '12 at 9:12
@ChrisThompson - hmm... maybe I'm too old but I've never thought of a GUI as a core part of an OS. And I've never thought of an OS without a GUI as simply being "a conglomeration of components from different vendors, etc." But hey maybe things have moved on since I formed my opinion of what constituted an OS :) – George Hawkins Oct 4 '12 at 16:46

Linux is a kernel, not a full operating system. There are different windowing systems and gui's that run on top of Linux to provide windowing. Typically X11 is the windowing system used by Linux distros.

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They are built on top of it. X11 is the server, while KDE, Gnome etc. are desktop managers, providing higher level APIs, common window layouts etc. – Mark Oct 3 '12 at 21:35
X11 is the actual low level layer that handles all of this stuff and handles drawing to screen etc (and communicates with graphics drivers). Gnome/KDE then control X11. That's about it at a high level and ignoring a billion and one details. – slugonamission Oct 3 '12 at 21:36
thanks. one more question: wikipedia explains that X11 "creates a hardware abstraction layer where software is written to use a generalized set of commands, allowing for device independence and reuse of programs on any computer that implements X." my question is: why does X11 provide hardware interaction (HAL), should the Linux Kernel provide that and X11 operate on top of the Kernel? In other words, why is X11 reaching to hardware devices when the Kernel should be its proxy? – amphibient Oct 3 '12 at 21:45
I think in this case HAL is an incorrectly used term. Really what they're saying is X11 provides a system-independent means to display windows. There are versions of X11 for Darwin (Mac OS - that's actually more complicated now with Mountain Lion...), MS Windows and Linux. – Chris Thompson Oct 3 '12 at 22:09
X11 is a network protocol. Abstraction involves writing programs on platform A that can display X11 clients (windows, apps, etc) on platform B over some networking equipment. Your app can run locally, remotely, in a nested server, in a virtual server that just does VNC, etc. Hardware abstraction (on the local platform) is a side-effect of this feature, but it also blurs the line between X11 and the kernel (which is what does hardware abstraction on an average Unix system). – Alexios Oct 4 '12 at 0:23

wayland is also worth mentioning as it is mostly referred as a future X11 killer.

Also note that android and some other mobile operating systems don't have X11 although they have Linux kernel, so in that sense X11 is not native to all Linux systems.

Being cross-platform has nothing to do with being native. Cocoa has also been ported to other platforms via GNUStep but it is still native to OSX.

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The high level architecture diagram for Wayland is the same as that of X, except that the "Compositor" and "Server" in the X diagram are merged in the Wayland diagram. What's lacking is a plausible explanation why this integration couldn't be worked into X. – Kaz Oct 4 '12 at 0:03
well, I would say it's not easy changing the fundamental design of a 20+ years old code base. Also note that another problem with X11 is that most of it's functionality such as font rendering is not being used today. Plus X11 will still be needed in servers and supercomputers, network transparency is just too good to be given up. – gokcehan Oct 4 '12 at 7:23
@gokcehan wayland doesn't omit network transparency, it's a myth. It's not implemented yet, just as many other things in Wayland.… etc. – whitequark Oct 4 '12 at 9:07
+! for mentioning Android's lack of X11. Android is probably the most convincing counter-example to the argument that "x11 is the native linux GUI". Demonstrating that Linux can have x11 or Android as it's "native" GUI shows beginners that Linux is really just a kernel and doesn't always have GUI. – Trevor Boyd Smith Oct 4 '12 at 13:37
"Being cross-platform has nothing to do with being native" is an excellent point. I've used that pattern very frequently over my years of porting cross-platform. Most notably, in the 90's, I sold a framework which let you cross-compile code written to the Metrowerks PowerPlant framework using MFC under the hood. (Before anyone sneers, once you get below the macros, MFC is quite reasonable.) I've also had multiple porting jobs where either the Win32 or the Mac Toolbox API was the spec against which we compiled, reimplemented as necessary on the other platforms. – Andy Dent Aug 18 at 8:44

Strictly speaking, the API of Linux consists of its system calls. These are all of the kernel functions that can be called by a user-mode (non-kernel) program. This is a very low-level interface that allows programs to do things like open and read files. See for a general introduction.

A real Linux system will also have an entire "stack" of other software running on it, in order to provide a graphical user interface and other features. Each element of this stack will offer its own API.

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This answer was written when the question was "What is linux's native API?" (since then, "GUI" has been inserted into the question). – nibot Oct 4 '12 at 10:54
It's still the right answer to what is now an incoherent question because none of the systems that sit on top of Linux, including GNU and X11, are "native" in any meaningful sense. – Jim Balter Nov 16 '12 at 4:37

To aid in what has already been mentioned there is a very good overview of the Linux graphics stack at this blog:

This explains X11/Wayland etc and how it all fits together. In addition to what has already been mentioned I think it's worth adding a bit about the following API's you can use for graphics in Linux:

Mesa - "Mesa is many things, but one of the major things it provides that it is most famous for is its OpenGL implementation. It is an open-source implementation of the OpenGL API."

Cairo - "cairo is a drawing library used either by applications like Firefox directly, or through libraries like GTK+, to draw vector shapes."

DRM (Direct Rendering Manager) - I understand this the least but its basically the kernel drivers that let you write graphics directly to framebuffer without going through X

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That was a really good blog post! – giZm0 Oct 10 '12 at 7:33 - (in russian) translation of that post if anyone needs – Bob Jul 11 '13 at 12:41

I suppose the question is more like "What is linux's native GUI API".

In most cases X (aka X11) will be used for that:

You can find the API documentation here

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XWindows is probably the closest to what could be called 'native' :)

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is that the same thing as x11? – Constan7ine Oct 3 '12 at 21:28
Yep. That's what I meant. – Sergey Sirotkin Oct 3 '12 at 21:39
But if you use it directly, you will see it's not quite a GUI api... Linux just doesn't have 1 native GUI api. But nearly all those GUI APIs (at least those common on desktop linux today) run on top of X. If you start writing an application using plain old X today, it will look totally out of place on any modern distro, so I'd say the native GUI is distribution dependent - gtk/gnome for ubuntu, kde for others. – Axel Oct 5 '12 at 5:44

The closest thing to Win32 in linux would be the libc, as you mention not only the UI but events and "other os stuff"

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libc (the C standard library) is an interface to the OS system calls. It's the latter (OS system calls) on Linux that roughly translates to Win32 on Windows. You can't really (or at all?) program for current versions of Windows without at some level using the Win32 API, but you can program for both Windows and Linux without using the respective compiler's standard C library, simply by duplicating the direct-to-syscalls code. It isn't recommended, and it makes your code completely nonportable to other OSes, but it's possible to do. – Michael Kjörling Oct 4 '12 at 9:21
UI isn't part of libc - as long as you don't think of printf/scanf and the like as being a UI... libc is just the C standard library. And it's not really an interface to the OS system calls either. It provides functions for file i/o, memory management, string processing etc. and internally uses system calls. For making system calls like ioctl yourself, you'd have to include something from sys/. – Axel Oct 5 '12 at 5:35

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