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Say an OS/kernel is written with C++ in mind and does not "do" any pure C style stuff, but instead exposes the C standard library built upon a full-fledged C++ standard library. Is this possible? If not, why?

PS: I know the C library is "part of C++", but let's say it's internally based on a C++-based implementation.

Small update: It seems I've stirred up a discussion as to what is "allowed" by my rules here. Generally speaking: the C Standard library implementation should use C++ everwhere that is possible/Right (tm). I mostly think about algorithms and acting on static class objects behind the scenes. I'm not really excluding any language features, but instead trying to put the emphasis on a sane C++ implementation. With regards to the setjmp example, I see no reason why valid C (which would use either other pre-implemented in C++ C library parts or not use any other library functions at all) here would be violation of my "rules". If there is no counterpart in the C++ library, why debate the use of it.

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I fail to see the relationship between the implementation language of a kernel and user code. –  AProgrammer Feb 24 '11 at 19:58
@JackN: not at all, please reread both questions. Your/my "duplicate" is specifically about pthread<->std::thread, this one about the Standard C library vs C++. –  rubenvb Feb 24 '11 at 20:13
@AProgrammer: surely several library functions need to interact with the kernel to work (I'm thinking file I/O etc...)? –  rubenvb Feb 24 '11 at 20:41
The interface between the kernel and user code is usually done in assembly as it requires processor specific stuff not used for the language ABI (software interrupt or SYSCALL like instruction on x86 for instance). –  AProgrammer Feb 24 '11 at 20:50
You obviously can provide a DLL wrapping this as official OS interface, but that interface is in no way tied to the implementation language of the kernel itself. I'd use something very C like in order to facilitate the interfacing with all language (and thus not use things like variadic functions which are very C specific). –  AProgrammer Feb 24 '11 at 20:54

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I see no reason why you couldn't do it, but I also see no reason why someone would use such an implementation. It's going to use a lot more memory, and be at least somewhat slower, than a normal implementation...although it might not be much worse than glibc, whose implementation of stdio is already essentially C++ anyway... (Lookup GNU libio... you'll be horrified.)

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So it would be a lot worse, but on second thought not much worse or the same than the most popular open source C library? –  rubenvb Feb 24 '11 at 20:17
@rubenvb, well put but I think I agree with R. anyway. If glibc was implemented in C++, it would be even bigger. It was just a jab at how feature complete glibc is. glibc is a swiss army chainsaw tactical nuke pocket knife. :-) –  Prof. Falken Feb 25 '11 at 0:03
People put up with glibc's size, slowness, and refusal to follow the standards because it's what's there. Pretty much the same reasons so many people put up with MSIE on Windows. I don't think you could write a new browser as bad as MSIE and get people to adopt it, and I don't think you could write a new standard library as bad as glibc and get people to adopt it. –  R.. Feb 25 '11 at 1:24
Actually, I think the belief that c++ is a pessimisation of c is a myth by those who don't understand what c++ can do. –  ex0du5 Aug 19 '11 at 16:00
You can think that all you like, but it won't change the reality. It's almost impossible to get fail-safe code (no failure cases) using C++ idioms because virtually everything requires dynamic allocation. –  R.. Aug 19 '11 at 19:04

Yes, that is possible. It would be much like one exports a C API from a library written in C++, FORTRAN, assembler or most any other language for that matter.

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Actually, c++ has the ability to be faster than c in many ways, due to it's ability to support many translationtime constructs like expression templates. For this reason, c++ matrix libraries tend to be much more optimised than c, involve less temporaries, unroll loops, etc. With new c++0x features like variant templates, the printf function, for instance, could be much faster and typesafe than a version implemented in c. It my even be able to honor the interfaces of many c constructs and evaluate some of their arguments (like string literals) translationtime.

Unfortunately, many people think c is faster than c++ because many people use OOP to mean that all relations and usage must occur through large inheritance hierarchies, virtual dispatch, etc. That caused some early comparisons to be completely different from what is considered good usage these days. If you were to use virtual dispatch where it is appropriate (e.g. like filesystems in the kernel, where they build vtables through function pointers and often basically build c++ in c), you would have no pessimisation from c, and with all of the new features, can be significantly faster.

Not only is speed a possible improvement, but there are places where the implementation would benefit from better type safety. There are common tricks in c (like storing data in void pointers when it must be generic) that break type safety and where c++ can provide strong error checking. This won't always translate through the interfaces to the c library, since those have fixed typing, but it will definitely be of use to the implementers of the library and could assist in some places where it may be possible to extract more information from calls by providing "as-if" interfaces (for instance, an interface that takes a void* might be implemented as a generic interface with a concept check that the argument is implicitly convertible to void*).

I think this would be a great test of the power of c++ over c.

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Given that "pure C stuff" has such a large overlap with C++, I fail to see how you'd avoid it entirely in anything, much less an OS kernel. After all, is the + operation "pure C stuff"? :)

That said, you could certainly implement certain C library functions using classes and whatnot. Implement qsort using std::sort? Sure, no problem. Just don't forget your extern "C".

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I specifically said "C Library" do differentiate between language<->library. There is a difference, and it matters here. –  rubenvb Feb 24 '11 at 20:18

Kernels like Linux have very strict ABI, based on syscalls, ioctls, filesystems, and conforming to quite a few standards (POSIX being the major one). Since the ABI has to be stable its surface is also limited. It would be a lot of work (particularly since you need a minimally useful kernel as well), but these standards could be implemented in any language.

Edit: You mentioned the libc as well. That is not part of the kernel, and the language of the libc can be entirely unrelated to that of the kernel, thanks to the aforementioned ABI. Unlike the kernel, the libc needs to be C or have a very good ffi for C. C++ with parts in extern C would fit the bill.

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