I am sorry if this is a naive question, but there's something I can't get my head around.

Why is the C++ standard library bundled with different compiler implementations (g++'s libstdc++ and clang's libc++) instead of coming bundled with a (UNIX-like) Operating System, just as, say the C standard library does? Why isn't it maintained alongside the C library, considering that it's a superset of it?

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    @40two Well that is ambiguous you are right. To clarify, I mean why aren't they maintained under the same umbrella, say for instance, under glibc or another C standard library project. – NlightNFotis Jun 17 '14 at 18:18
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    The compiler and library need to agree on the binary interface used for the library. C compilers (mostly) agree on a common calling convention and such, so it's pretty easy to maintain the library separate from the compiler. C++ compilers more often have differences in calling conventions and such, so the library needs to be compiled separately for each. – Jerry Coffin Jun 17 '14 at 18:19
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    It doesn't. Covered by this blog post. – Hans Passant Jun 17 '14 at 18:25
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    Having an OS doesn't mean you need a C++ standard library. But having a C++ compiler almost certainly does. – dlf Jun 17 '14 at 18:26
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    @Mysticial: The libc library that ships with Windows is not intended to be used for applications. See: blogs.msdn.com/b/oldnewthing/archive/2014/04/11/10516280.aspx – Dietrich Epp Jun 17 '14 at 18:26

The basic reason is that there is no standard C++ ABI -- every compiler tends to have its own ABI that is different from and incompatible with that of other compilers. On the other hand, most OSes define a standard C ABI that they use and supply a standard C library for, and all C compilers for that OS support that ABI.

  • +1 for actually reading the question and answering the specific point it asks (why C++ has one library per compiler while all C compilers tend to share the same library) rather than just commenting on a tangential point (i.e. that technically the C library isn't part of the OS either). – Jules Jun 18 '14 at 5:50
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    Actually, there is an effort pushed by Herb Sutter (from Microsoft) to get a stable ABI for C++ with a model similar to C, see n4028: Defining a portable C++ ABI. – Matthieu M. Jun 18 '14 at 6:18
  • @MatthieuM.: Unfortunately, the state of that proposal is really just an (incomplete) set of proposed requirements and nothing concrete. The problem is there are a lot of pitfalls around inheritance and virtual function definitions and maintaining backwards compatiblity with no go good way of addressing them – Chris Dodd Jun 18 '14 at 15:42
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    @ChrisDodd: Yes, still I have hope that there is some time before C++17 :) – Matthieu M. Jun 18 '14 at 16:31
  • Damn, your answer was on review of Firsts Posts and I just wanted to ask if you were talking about API instead of ABI. I failed because I clicked on comment... I feel I have been cheated :-) – Luc M Jul 14 '14 at 13:02

Operating systems in general do not support languages. They only support for their own system calls. In most operating systems this support is provided as part of the C library because C has the lowest level linkage. Other languages and runtimes (such as C++, python, etc) build their runtime support on top of the OS's system call support library.

  • UNIX and C were developed together by the same group of people, so UNIX and thus POSIX systems support C and C is tightly woven into the OS in many ways. – Chris Dodd Dec 5 '16 at 16:43

The C library is also maintained separately: both glibc and Windows's msvcr* (don't know the details on Mac). The fact that is "comes with the OS" is that all (most of) the binaries are linked against it, so nothing would work without it. Granted, same could be said of the C++ standard library, but not quite so strict.

The compiler often provides extensions which library writers use to facilitate development. When a new feature is implemented, the library is adapted. Sometimes these changes are breaking. In the case of glibc/libstdc++(/libc++?), backwards compatibility is maintained inside the library (using versioned symbols). In the case of Windows' CRT, various incompatible versions appeared of both the C and C++ standard libraries, coupled to each compiler version. Also: in the case of Visual Studio, the compiler tends to break ABI between versions, so "the OS" would have to come with all versions of the libraries.

PS: granted, for Windows, it might have been "cleaner" to include newer CRT/C++lib versions in Windows Update. Other choices were made way back when, and most stuck until now.

  • Unfortunately, some applications access the internals of the Visual Studio C runtime, which is the application's fault definitely, but it's understandable that the Visual Studio team doesn't want to break those applications. – Dietrich Epp Jun 17 '14 at 18:36

The source code of the C++ library is bundled with the GCC sources. This makes sense, because the C++ library goes hand in hand with the C++ language. It is not an operating system component. Certain aspects of it, like memory management and I/O, do interface with OS facilities, but much of it doesn't.

On the other hand, the actual bundling of the C++ library is the job of the operating system distro (for instance some flavor of GNU/Linux).

Ultimately, it is your distribution which decides how libstdc++ is packaged. For instance, it might make sense for it to be a standalone package (which might even need to appear in several versions). This is because libstdc++ provides a shared library, and that shared library is needed as a dependency by other packages, whether or not a compiler is installed. And some packages might only work with a specific version of this library.

"Part of the OS" or "part of the compiler" don't really make sense: the question is "part of what package", and that is distro-specific, because when you build the GCC suite, your build scripts can then pick apart the temporary install tree into arbitrary packages based on your vision of how to organize a distro.

Suppose we made a "ceeplusplusy" OS distro. Then the C++ library could be considered and essential component of the OS. That is, suppose the core applications that are needed just to bring up the OS are all rewritten in C++ and all use the library: things like a system daemon, shell, "getty" and so on. Then the C++ library is needed in early boot stages. Ultimately, what is OS and what isn't?


On a Mac, you will find both libc.dylib (Standard C library) and libc++.dylib (Standard C++ library) in the /usr/lib directory. On an iOS device, you won't find them (easily), but they are both there as well. Quite clearly, they are not part of the compiler, because they are essential for practically all programs to run, and they are present even if you never installed any compilers.

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