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I have been involved in numerous c++ projects mainly in the application domain pertaining to VOIP protocols. Now I have to move to L3 , L2 protocol development projects where I found 'C' is preferred language of choice for the L2/L3/L4 developers.

Now I am wondering expect device firmware related applications, why protocols are developed using stone age era language. Why ppl dont take the benefits of OOPS techniques? Will it be prudent if I try to convince them to switch to c++. Most of the developers working in the team are C experts and not comfortable with C++.

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closed as not constructive by Adam Rosenfield, leppie, In silico, Bo Persson, Graviton Jul 6 '12 at 8:37

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"Most of the developers working in the team are C experts and not comfortable with C++." That would be the top reason to use C. –  Charles Bailey Jul 6 '12 at 5:24
Also, OOP isn't always beneficial. –  SingerOfTheFall Jul 6 '12 at 5:25
C++ is not only about OOP. For example, there is a standard library, and templates, which can be extremely useful. It is a huge and complicated language though, so one cannot just "switch" to it. Some considerable investment in learning is usually required. –  juanchopanza Jul 6 '12 at 5:29
What exactly are L2/L3/L4 projects? –  RedX Jul 6 '12 at 6:35
@RedX, I think he means project for protocol development as in OSI layering. –  deo Jul 6 '12 at 6:53

2 Answers 2

There are several reasons for continuing using C.

  1. There are existing C projects. Who will pay for converting them into C++?
  2. C++ compiler (of a good quality) is not available on every platform.
  3. Psychological reason. When you pass and return objects by value, temp objects are created left and right. This is not ok for small systems. People do not really understand that passing and returning references completely solves this problem. There are other similar issues.
  4. And finally. What is wrong with C? It works! (Do not fix what is not broken).

It is possible to write the same performant code on C++ as on C, but this requires better understanding, training, code control discipline. Common percetion is that these flaws are unavoidable.

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Concerning point 3, most compilers implement copy ellision (RVO and NRVO), so temp objects are not created most of the time. So another psychological barrier is to stop always passing by reference. –  juanchopanza Jul 6 '12 at 5:34
@juanchopanza, you comment is at least unprofessional. What means "most compilers"? What is "most of the time"? There is fundamental difference between 50mhz microcontroller and 1.6ghz Core2. –  Kirill Kobelev Jul 6 '12 at 5:36
I mean GCC as far as I can remember, VS (although I am not sure since when), clang. With GCC, I have tested with some ARM/OMAP processors too.If you know of one that doesn't implement RVO and NRVO I would be interested to know. I also didn't downvote, because I think point 1 is a very important one that is often neglected. –  juanchopanza Jul 6 '12 at 5:40
@KirillKobelev That is interesting, I wonder if the situation has changed since then. But I would also be very reluctant to use a largely non-standard C++ compiler for anything professional. –  juanchopanza Jul 6 '12 at 5:54
@juanchopanza, I do not know the current situation. For Atmel most likely the situation has changed. But there are still hundreds of other less popular chips.. –  Kirill Kobelev Jul 6 '12 at 5:58

If you think of C as simply a "stone-age language," then I think you misunderstand why people continue to use it. I like and use both C and C++. I like them both for different reasons, and for different kinds of problems.

The C language presents a model of the computer that is both (mostly) complete and very easy to understand, with very few surprises. C++ presents a very complex model, and requires the programmer to understand a lot of nuance to avoid nasty surprises. The C++ compiler does a lot of stuff automatically (calling constructors, destructors, stack unwinding, etc.). This is usually nice, but sometimes it interferes with tracking down bugs. In general, I find that it's very easy to shoot yourself in the foot with both C and C++, but I find the resulting foot-surgery is much easier to do in C, simply because it's a simpler language model.

The C model of a computer is about as close to assembly as you can while still being reasonably portable. The language does almost nothing automatically, and lets you do all kinds of crazy memory manipulations. This allows for unsafe programming, but it also allows for very optimized programming in an environment with very few surprises. It's very easy to tell exactly what a line of code does in C. That is not true in C++, where the compiler can create and destroy temporary objects for you. I've had C++ code where it took profiling to reveal that automatic destructors were eating a ton of cycles. This never happens in C, where a line of code has very few surprises. This is less of an issue today than it was in the past; C++ compilers have gotten a lot better at optimizing many of their temporaries away. It can still be an issue, though, and especially in an embedded environment where memory (including stack space) is often tight.

Finally, code written in C++ often compiles slowly. The culprits are usually templates, but eliminating templates often makes your C++ code look a lot like C. And, I really cannot overstate how much this can affect productivity. It kills productivity when your debug-fix-recompile-test cycle is limited by the compilation time. Yes, I know and love pre-compiled headers, but they only do so much.

Don't get the impression that I'm anti-C++ here. I like and use the language. It's nice to have classes, smart pointers, std::vector, std::string, etc. But there's a reason that C is alive and kicking.

For a different perspective, and one that is firmly anti-C++, you should at least skim over Linus Torvald's perspective on C++. His arguments are worth thinking about, even if you disagree with them.

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I think slowness of compilation is mostly a problem when working with poor development environment which cleans and re-compiles everything every time without considering which files have changes and need recompiling. Usually debug takes place in 1-3 files at a time, re-compiling those should take place in few seconds unless there is excessive amounts of recursive templates or something. –  deo Jul 6 '12 at 7:05
Thorvalds is way off, and has caught himself in a catch-22 situation. He says that C++ sucks because he can't find any good C++ programmers. And that makes it true, because he has now scared away those he really needed. –  Bo Persson Jul 6 '12 at 7:17
@deo it depends quite a lot on what and where the problem is. If your bug touches code in a header, then all bets may be off. If your bug requires refactoring one or more classes, then your going to potentially recompile a large part of your project. –  sfstewman Jul 6 '12 at 7:20
@BoPersson Torvalds holds strong opinions. You'd be hard pressed to argue that C++ programmers are what the Linux kernel and git are really lacking, though. –  sfstewman Jul 6 '12 at 7:26
I believe parts of the Linux kernel could benefit from real C++ instead of simulated OOP in C. But this is just theoretical, because he is not going to get the help anyway. –  Bo Persson Jul 6 '12 at 7:33

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