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Why is C as programming language still so prominent when it comes to OS programming? Shouldn't C++ have replaced it a long time ago as its successor?

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This isn't an answer but here's a very detailed article explaining why C++ is a bad idea in Windows kernel drivers. It makes an interesting read and many of the points are also relavent to Linux. msdn.microsoft.com/en-us/windows/hardware/gg487420 –  Benj Apr 16 '12 at 14:38
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closed as not constructive by Daniel Fischer, Will May 3 '13 at 13:46

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12 Answers

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The primary reason that Linux isn't written in C++ is of course that Linus Torvalds hates it.

There are also technical reasons why C might be preferred over C++ for things like kernels.

  • New architectures and platforms will typically have a C compiler long before they have a C++ compiler. C is a much simpler and easier language to implement.

  • Portability of C code between compilers has been far better. Portability of C++ code was long something that required a lot of discipline to achieve. See the (now historic) Mozilla portability guide for insight into the lengths that programmers go to to create portable C++.

  • C++ requires a more complicated runtime to support things like exception handling and RTTI. This can be hard to provide in an unhosted environment. Compilers do permit you to switch them off.

  • Apparently simple statements can hide expensive operations, thanks to operator-overloading. This would normally be considered a Good Thing, but in an embedded/kernel development world people like to be able to see where expensive operations are being performed.

Here are some non-reasons:

  • "C++ is slower than C." C++ has the same overheads as C. Additional overheads typically only arise when using features C doesn't support.

  • "Virtual dispatch is slow." Virtual dispatch is slower than static dispatch, but the performance penalty is modest, particularly when used judiciously. The Linux kernel already makes wide use of jump tables for performing dynamic dispatch.

  • "Templates cause massive code bloat." This is potentially true. However the Linux kernel uses macros to perform similar code generation effects, for instance creating typed data structures, or for retrieving a containing structure from a pointer to a member.

  • "Encapsulation hurts performance."

Here are some reasons that a kernel in C++ might be a good idea:

  • Less boiler plate code to use the common dynamic dispatch pattern.

  • Templates give a safer way to perform simple code generation, with no performance penalty over macros.

  • The class mechanism encourages programmers to encapsulate their code.

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This is probably one of the most balanced and constructive posts I've read on this topic, +1 for you. (Especially when compared to the git debate which appears to revolve around: "all C++ programmers are idiots, all C programmers are experts"). –  Richard Corden Feb 6 '09 at 14:47
Good posts. however I'd like to see some actual numbers on C++ is slower than C. I've given a link to this site shootout.alioth.debian.org/u32q/c.php in a comment a few posts down, but nobody seemed to take notice. –  heeen Feb 7 '09 at 13:40
Mozilla's portability guide is pretty dated. ISO-C++ is reasonably portable nowadays to any compiler and environment that matters. –  Elazar Leibovich Aug 25 '12 at 19:19
The last three reasons are great reasons to implement more strict controls...but not in C or C++. I'd argue that a new language like Rust or Vala would be even better to use to program a kernel these days. Vala, for one, supports classes, and boiler plate code can generally be eliminated by a generation system, which can usually be baked straight into the compile system. –  smaudet May 28 '13 at 1:07
Nowadays, GCC is implemented in C++, so how does affect 1) in Wolfs reply? –  Centril Oct 20 '13 at 10:10
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Linus Torvalds hates it. He didn't implement GIT using C++ too, and here's his reason (for GIT implementation): http://thread.gmane.org/gmane.comp.version-control.git/57643/focus=57918

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+! Nice link/rant. :) –  cletus Feb 6 '09 at 12:15
Dude, clear words! But still the opinion of a single person, albeit an opinion with weight. –  prinzdezibel Feb 6 '09 at 12:18
mixedpickles, Since Linus wrote the kernel at first, I think we can get a good idea why the kernel were written in C and not C++ from the posts he writes about GIT. –  martiert Feb 6 '09 at 12:34
It's the opinion of the person who started the kernel. As such, I think his decision is, and was, final. –  jalf Feb 6 '09 at 14:46
This Linus isn't very friendly when it comes to discuss programming stuff –  Jaime Hablutzel Mar 20 at 8:22
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You can utilise as much of the power of C++ as you wish. But no more than that. And with the arrival of C++11, the language approaches the expressiveness of python (!)

See the end of this article for more observations about C++11.


The best way to handle errors is with exceptions. If you do nothing else in the kernel w.r.t. exceptions just do this in a C++ kernel:


Then begin to test and trust exceptions and stack unwinding in the kernel to Do What You Expect.

C++ can cleanup C code and make it type safe.

Macros are type agnostic. Functions are type safe. And indempotent.

Take this example from http://www.ibm.com/developerworks/linux/library/l-gcc-hacks/index.html or http://tinyurl.com/5g28qz

#define min(x, y) ({ \ typeof(x) _min1 = (x); \ typeof(y) _min2 = (y); \ (void) (&_min1 == &_min2); \ _min1 < _min2 ? _min1 : _min2; })

This can be replaced by a Linux Kernel approved template

template <class T> min(T const& a, T const& b) { return a < b ? a : b; }

I say "Linux Kernel approved" because kernel designers using C++ would restrict templates to a specific set of tried and true and perhaps most importantly simple templates.

And notably, #define constants can be replaced with type-safe and auto-initialising types, such as

  • int const BUFSIZE = 10240;
  • hdaddress const BOOT_SECTOR(0,1,0);


In C++ a data abstraction can be as simple as and have the same overhead as a C struct, with the benefits of constructor and destructor, resource allocation via construction, guaranteed initialisation, controlled instantiation, controlled copying and assignment, serialisation and streaming, and memory management.


A C struct is a class in C++. Add some methods to the C++ struct and you've got an ADT.

Hide essential characteristics and operations in the C++ struct and you've got an ADT with encapsulation.

Whereas C exposes the entire struct to the public, C++ enforces strict encapsulation protocols such as public, protected and private.


Polymorphism is often implemented obscurely in C using a highly structured set of pointers to functions. The overhead of C++ polymorphics in the single inheritance case is the same. But the clarity of coding polymorphism in C++ leaves C parsecs behind.

Keep It Simple, Use Single Inheritance Only and Polymorphism works fine.


Containers - write a Linux Kernel Template Library but eschew STL

STL is out. The Linux Kernel Template Library is in. Write streamlined tried and true containers just for the kernel. The containers in Linux such as Linux::{map,string,vector} satisfy most of the requirements of the kernel data model.

GENERICS Smart pointers in a Linux Kernel Template Library

Write some smarty pants pointer wrappers in C++ and you've eliminated 80% of the headaches of using C pointers in the kernel.

Unlike STL, the Linux Kernel Template Library supports containers of pointers. Safely.


You want to use malloc? Be my guest. You want your class to use its own memory mgmt scheme? Possible in C, easy in C++ by overloading new.


I presume that there are C coding standards for the kernel. This would definitely apply to coding standards for C++ as well.

  • Replace C structs with C++ classes.
  • Stick to single inheritance.
  • Use polymorphism (virtuals) only if you will have a few instances of the class; stick to plain classes (structs) sans virtuals for mega instances of the class
  • Templates are restricted to those approved in the Linux Template Library.
  • The use of exceptions is restricted to non-critical code.
  • The use of and dependence on RTI (runtime type ids) is eschewed (?)
  • External C++ libraries such as STL and Boost are not allowed.
  • The only namespace allowed is Linux:: whereas std:: and others are eschewed.


A simple (?) exercise would be to compile the kernel using g++, without making any C++ adaptations to the code base. Then test it. Run it. Distribute it. Abuse it. Does it fly? If so, then try some of the steps above and see if the same holds.


Learn more: C++11 succint pythonesque example

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I have some questions about the possible code standards section you wrote. First of all what did you mean by saying "Templates are restricted to those approved in the Linux Template Library." Linux kernel already uses a lot of MACROs, so why would templates hurt? Secondly, don't you think that by using exceptions safely, "throw" mechanism can be even beneficial for kernels. And lastly, I can see no reason not to use some "specific" STL classes (std::string), if and only if the programmer surely knows what's going on behind the scene. And, this is a great answer, thanks for that. –  Equalities of polynomials May 1 '13 at 12:30
c++11 as expressive as python , is that a joke , did you read what you posted ? –  maazza May 15 '13 at 18:57
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C was designed from the beginning to be a "sweet spot" between a "high level" language and assembly language. That makes it ideal for use in any real time application, such as an operating system.

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I think you're confusing design and actuality. C is a good language for OS development; the question here is whether C++ would be a better one. If you're looking at design intent, C++ was designed as a better C. –  David Thornley Feb 6 '09 at 15:10
Not exactly... parts of C++ were, as you said, to make a "better C" but most of it, such as object orientation, were a departure from C in that the mapping to assembly language was much less straightforward. The "better than C" features of early C++ were mostly incorporated into ANSI C. –  JoelFan Feb 8 '09 at 16:57
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The Fiasco micro kernel is implemented in C++.

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this such a bummer. –  jokoon Sep 27 '10 at 21:09
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@Richard Wolf - mostly agree.

I think the runtime-support issues is the primary obstacle, however. I have tried to implement a on-the-metal kernel in C++, so I can tell you from experience that having to write your own librt isn't much fun (i.e., think the 'new' keyword), and programming C++ while trying to avoid stepping in one of those runtime-supported features takes a lot of power out of it as well. Portability wasn't really a big concern - the GCC compiler is pretty portable and as of 3.4 or so actually generates pretty good code. I can also tell you from experience that it is doable, it's just that you have hurdles to overcome that aren't present in C.

I would also add this: C++ compilers mangle symbols, which can be a bitch in linker scripts and other supporting infrastructure.

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Here I got one more link that I am pasting here:


Why don't we rewrite the Linux kernel in C++?

  • (ADB) Again, this has to do with practical and theoretical reasons. On the practical side, when Linux got started gcc didn't have an efficient C++ implementation, and some people would argue that even today it doesn't. Also there are many more C programmers than C++ programmers around. On theoretical grounds, examples of OS's implemented in Object Oriented languages are rare (Java-OS and Oberon System 3 come to mind), and the advantages of this approach are not quite clear cut (for OS design, that is; for GUI implementation KDE is a good example that C++ beats plain C any day).
  • (REW) In the dark old days, in the time that most of you hadn't even heard of the word "Linux", the kernel was once modified to be compiled under g++. That lasted for a few revisions. People complained about the performance drop. It turned out that compiling a piece of C code with g++ would give you worse code. It shouldn't have made a difference, but it did. Been there, done that.
  • (REG) Today (Nov-2000), people claim that compiler technology has improved so that g++ is not longer a worse compiler than gcc, and so feel this issue should be revisited. In fact, there are five issues. These are:
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What are the five issues? –  Ferruccio Aug 20 '12 at 0:33
The five issues can be found e.g. here: home.cuit.edu.cn/Js/PV6/2HR/c%20programming/rewrite%20linux.htm –  Vegard Apr 22 '13 at 5:33
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See this kerneltrap thread for actual discussion on C++ in the kernel.
Just a quote: "In fact, in Linux we did try C++ once already, back in 1992. It sucks. Trust me - writing kernel code in C++ is a BLOODY STUPID IDEA."

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Ah, before C++ was actually standardized, much less a reasonably useful language. Trust Linus to use that as justification. (There are good reasons to avoid C++ in low-level kernel code, of course. But "C++ sucked 7 years before it was finalized" is not among them) –  jalf Feb 6 '09 at 14:49
Yeah, I often find that people who say "C++ sucks" are still talking about MSVC6 or some other terrible implementation of it. Yes, there are good reasons to avoid C++ in kernel code, but avoiding it because of what C++ was fifteen years ago is stupid. –  Kristopher Johnson Feb 6 '09 at 15:05
Well, considering that we are still using MSVC6 here, that hardly helps me. (Yes, it does suck). –  T.E.D. Feb 7 '09 at 3:20
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I think encapsulation and polymorphism, is a very big strength, if c++ does not cut for kernel development , why does not the mighty Linus Trovalds create the feature of classes in C.

Structures are very good, but classes has its properties and functionality embedded.

It would be great if the computer components where interfaced by classes, instead of structures that are statically typed and having namespace conflicts.

Its not just the type variables that are not allowed in a program there are many words that can not be used in a program because of being operating system global variables.

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I am not advocating this idea, but I learned recently that polymorphism is possible with C only. Checkout GLib/GObject/GTK+ from the GNU/GNOME folks. Crazy, but they have basically hand rolled virtuals methods... the whole nine yards. Of course, doing encap/polymorph in C++ is much, much easier. The compiler does a lot of heavy lifting and static error checking for you. –  kevinarpe Dec 11 '12 at 10:08
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First of all what did you mean by saying "Templates are restricted to those approved in the Linux Template Library." Linux kernel already uses a lot of MACROs, so why would templates hurt?

STL is a bloated mess, imho. But the source code and design are available. With that, one can write a few standard Linux Kernel template classes (vector, dict, string) that would go a long way to avoiding reinventing wheels.

MACROs can often be done away with by writing inline functions and tempalte functions.

Note that the code bloat often referred to is because of templates. They need to be reigned in and controlled in an environment like an OS kernel.

Secondly, don't you think that by using exceptions safely, "throw" mechanism can be even beneficial for kernels.

Definitely. Compare code that returns error codes to code that uses exceptions for error processing handling. The latter is far easier to read and maintain.

And lastly, I can see no reason not to use some "specific" STL classes (std::string), if and only if the programmer surely knows what's going on behind the scene.

Rather, I would say grab the code for std::string and create linux::kernel::string that is streamlined and just one thing (handle strings) well, without error or unnecessary overhead. std::string is built on a base string class that handles Unicode and w_chars in addition to bytes. Overkill.

I reiterate and say that a judicious set of templates and use of inline functions could greatly improve th kernel, add important compile-time checking, all without any overhead over using C. With the added benefit of improved code comprehension.

Yes, yes, there is a LOT of badly written C++ out there, but the same can be said of any computer language. Good C++, rare as it is, is a thing of beauty and runs like a hot damn :)

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Aside from Linus' personal antipathy there are a couple of good reasons why you don't see a lot of other OS's written in it.

  1. It isn't that old. C++ is really only about 15 years old. That may sound old to today's typical Python programmer, but most OS's in existance have a codebase that goes back much further than that.
  2. Full blown C++ compilers are incredibly difficult to create. If you want to self-host your OS codebase, it's kind of a bummer to have to spend 11 man years on a side project to make your compiler.
  3. C++ isn't really designed for system's programming. It can do it fairly well, but that's mostly because it is built on C, which was designed for that.
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From Stroustrup's glossary: "C++ - a general-purpose programming language with a bias towards systems programming..." –  Richard Wolf Feb 6 '09 at 15:49
"C++ isn't really designed for system's programming. It can do it fairly well, but that's mostly because it is built on C, which was designed for that." that'S BS. sorry but that's one of C++'s primary goal :) –  Johannes Schaub - litb Feb 6 '09 at 18:25
Uhhhh... Python is over 20 years old (1991). –  Mechanical snail Nov 1 '11 at 18:31
And at the time you wrote this, C++ was actually 26 years old :-) –  Benj Apr 16 '12 at 14:29
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If you perform benchmarks of the two languages, C is generally much faster (because it doesn't have to deal with the overhead of objects). And it's much better suited to certain low-level programming than C++ is.

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These tests beg to differ (most in speed, some in size) shootout.alioth.debian.org/u32q/c.php –  heeen Feb 6 '09 at 12:42
No, this assertion is flat out wrong. Modern C++ compilers usually produce code without object overhead. In fact, good C++ will be faster than equally good C for reasons to do with inlining (function pointers can't be inlined, function objects can!) –  Konrad Rudolph Feb 6 '09 at 12:54
Calls via function pointer usually cannot be inlined - whether it is C or C++. If the situaiton allows it for C, it can be done for C++. –  peterchen Feb 6 '09 at 13:02
Function pointers can only be inlined in the general case if expensive global optimizations are performed. Function objects in C++ are trivially inlined. Also, what is this overhead of objects that you speak of? Care to elaborate? Which magic "pleaseslowthisdown()" function is called? –  jalf Feb 6 '09 at 14:48
Stuart: listen to jalf. Objects generall do not have overhead. It's as simple as that. Only specific use cases (e.g. virtual function calls) do actually impose any overhead. –  Konrad Rudolph Feb 6 '09 at 17:10
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