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After a few years coding in C++, I was recently offered a job coding in C, in the embedded field.

Putting aside the question of whether it's right or wrong to dismiss C++ in the embedded field, there are some features/idioms in C++ I would miss a lot. Just to name a few:

  • Generic, type-safe data structures (using templates).
  • RAII. Especially in functions with multiple return points, e.g. not having to remember to release the mutex on each return point.
  • Destructors in general. I.e. you write a d'tor once for MyClass, then if a MyClass instance is a member of MyOtherClass, MyOtherClass doesn't have to explicitly deinitialize the MyClass instance - its d'tor is called automatically.
  • Namespaces.

What are your experiences moving from C++ to C?
What C substitutes did you find for your favorite C++ features/idioms? Did you discover any C features you wish C++ had?

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Should probably be community wiki if you are just asking for experiences and not advice. –  Peter Alexander Oct 30 '10 at 11:38
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You might be interested in Prog.SE. –  Roger Pate Oct 30 '10 at 11:58
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@Peter: Questions can't be made CW by the OP anymore, and it required more rep than he has when it was still possible. If you think a question should be made community wiki for any other reason than to allow more users to edit the "community-owned" posts, then what you really want is to close the question. –  Roger Pate Oct 30 '10 at 11:59
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Wouldn't this question be more suited on programmers.se? Since it is definitely a "real" question, I say we reopen it and vote to move it instead. And that's not possible. OK. –  Lasse V. Karlsen Oct 30 '10 at 18:13
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The moving won't happen until the prog SE is out of beta, and in any case I think this approach to QA is fraking braindead. It's fragmenting the community, annoying the users, duplicating the questions and the answers. It's creating a mayhem of unorganized information which was previously accessible and navigable on a single "programmer" site. In addition, it's questions like this one, having huge views and incredible upvoting, that make me angry between the 5 whack-a-closer and the community as a whole. –  Stefano Borini Oct 30 '10 at 18:52

8 Answers 8

up vote 62 down vote accepted

Working on an embedded project, I tried working in all C once, and just couldn't stand it. It was just so verbose that it made it hard to read anything. Also, I liked the optimized-for-embedded containers I had written, which had to turn into much less safe and harder to fix #define blocks.

Code that in C++ looked like:

if(uart[0]->Send(pktQueue.Top(), sizeof(Packet)))
    pktQueue.Dequeue(1);

turns into:

if(UART_uchar_SendBlock(uart[0], Queue_Packet_Top(pktQueue), sizeof(Packet)))
    Queue_Packet_Dequeue(pktQueue, 1);

which many people will probably say is fine but gets ridiculous if you have to do more than a couple "method" calls in a line. Two lines of C++ would turn into five of C (due to 80-char line length limits). Both would generate the same code, so it's not like the target processor cared!

One time (back in 1995), I tried writing a lot of C for a multiprocessor data-processing program. The kind where each processor has its own memory and program. The vendor-supplied compiler was a C compiler (some kind of HighC derivative), their libraries were closed source so I couldn't use GCC to build, and their APIs were designed with the mindset that your programs would primarily be the initialize/process/terminate variety, so inter-processor communication was rudimentary at best.

I got about a month in before I gave up, found a copy of cfront, and hacked it into the makefiles so I could use C++. Cfront didn't even support templates, but the C++ code was much, much clearer.

Generic, type-safe data structures (using templates).

The closest thing C has to templates is to declare a header file with a lot of code that looks like:

TYPE * Queue_##TYPE##_Top(Queue_##TYPE##* const this)
{ /* ... */ }

then pull it in with something like:

#define TYPE Packet
#include "Queue.h"
#undef TYPE

Note that this won't work for compound types (e.g. no queues of unsigned char) unless you make a typedef first.

Oh, and remember, if this code isn't actually used anywhere, then you don't even know if it's syntactically correct.

EDIT: One more thing: you'll need to manually manage instantiation of code. If your "template" code isn't all inline functions, then you'll have to put in some control to make sure that things get instantiated only once so your linker doesn't spit out a pile of "multiple instances of Foo" errors.

To do this, you'll have to put the non-inlined stuff in an "implementation" section in your header file:

#ifdef implementation_##TYPE

/* Non-inlines, "static members", global definitions, etc. go here. */

#endif

And then, in one place in all your code per template variant, you have to:

#define TYPE Packet
#define implementation_Packet
#include "Queue.h"
#undef TYPE

Also, this implementation section needs to be outside the standard #ifndef/#define/#endif litany, because you may include the template header file in another header file, but need to instantiate afterward in a .c file.

Yep, it gets ugly fast. Which is why most C programmers don't even try.

RAII.

Especially in functions with multiple return points, e.g. not having to remember to release the mutex on each return point.

Well, forget your pretty code and get used to all your return points (except the end of the function) being gotos:

TYPE * Queue_##TYPE##_Top(Queue_##TYPE##* const this)
{
    TYPE * result;
    Mutex_Lock(this->lock);
    if(this->head == this->tail)
    {
        result = 0;
        goto Queue_##TYPE##_Top_exit:;
    }

    /* Figure out `result` for real, then fall through to... */

Queue_##TYPE##_Top_exit:
    Mutex_Lock(this->lock);
    return result;
}

Destructors in general.

I.e. you write a d'tor once for MyClass, then if a MyClass instance is a member of MyOtherClass, MyOtherClass doesn't have to explicitly deinitialize the MyClass instance - its d'tor is called automatically.

Object construction has to be explicitly handled the same way.

Namespaces.

That's actually a simple one to fix: just tack a prefix onto every symbol. This is the primary cause of the source bloat that I talked about earlier (since classes are implicit namespaces). The C folks have been living this, well, forever, and probably won't see what the big deal is.

YMMV

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Of course you hate C if you try to force it to be C++. I doubt C++ would look great if you tried to impose features from $more_expressive_language into it either. Not a critique to your post, just an observation :-) –  Mads Elvheim Oct 30 '10 at 17:03
    
Regarding the goto-instead-of-RAII technique: Isn't it a maintenance nightmare? i.e. whenever you add a code path that needs cleanup, or even just change the order of things inside the function, you have to remember to go to the goto labels at the end and change them as well. I'd like to see a technique that somehow registers the cleanup code right next to what needs to be cleaned up. –  george Oct 30 '10 at 23:48
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@george: I hate to say it, but most embedded C code I've seen is pretty bad by C standards. For example, I'm working with Atmel's at91lib right now, and it requires you to write a "board.h" file that the majority of their code pulls in as a dependency. (For their demo board, this header is 792 lines long.) Also, a "LowLevelInit()" function that you have to customize for your board is almost entirely register accesses, with lines like AT91C_BASE_PMC->PMC_MOR = (0x37 << 16) | BOARD_OSCOUNT | AT91C_CKGR_MOSCRCEN | AT91C_CKGR_MOSCXTEN | AT91C_CKGR_MOSCSEL; –  Mike DeSimone Oct 31 '10 at 1:13
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Oh, and nothing there tells you that BOARD_OSCOUNT (which is the value of the timeout for waiting for a clock to switch; clear, huh?) is actually a #define in board.h. There is also, in that same function, a lot of copy-and-pasted spin loop code, which should have been turned into a two-line #define (and, when I did just that, it saved a few bytes of code and made the function more readable by making register sets and spin loops more distinct). One of the big reasons to use C is that it lets you micromanage and optimize everything, but most code I've seen doesn't bother. –  Mike DeSimone Oct 31 '10 at 1:17
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Agree with @Mads. No reason to go through all of that for features you don't really need. I find I enjoy a style similar to the GTK library. Define your "classes" as structs and then create consistent methods such as my_class_new() and then pass that into the "methods": my_class_do_this(my_class_instance) –  Max Oct 31 '10 at 1:49

I moved from C++ to C for a different reason (some sort of allergic reaction ;) and there are only a few thing that I miss and some things that I gained. If you stick to C99, if you may, there are constructs that let you program quite nicely and safely, in particular

  • designated initializers (eventually combined with macros) make initialization of simple classes as painless as constructors
  • compound literals for temporary variables
  • for-scope variable may help you to do scope bound resource management, in particular to ensure to unlock of mutexes or free of arrays, even under preliminary function returns
  • __VA_ARGS__ macros can be used to have default arguments to functions and to do code unrolling
  • inline functions and macros that combine well to replace (sort of) overloaded functions
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Examples, please? –  Mike DeSimone Oct 30 '10 at 13:11
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@Mike: for which part in particular? If you follow the link I gave for the for scopes, you'll land on P99, where you may look around also for examples and descriptions of the other parts. –  Jens Gustedt Oct 30 '10 at 13:32
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@Mike: There you go. –  george Oct 31 '10 at 0:03
    
@george: Thanks! @Jens: Examples of the the other four. I've fallen behind on my C; last I heard they added runtime-sized automatic-allocated (i.e. stack) arrays (e.g. void DoSomething(unsigned char* buf, size_t bufSize) { unsigned char temp[bufSize]; ... }) and structure initialization by field names (e.g. struct Foo bar = { .field1 = 5, .field2 = 10 };), the latter which I'd love to see in C++, especially with non-POD objects (e.g. UART uart[2] = { UART(0x378), UART(0x278) };). –  Mike DeSimone Oct 31 '10 at 1:35
    
@Mike: yes there are variable length arrays (VLA), but they may be a bit dangerous to use because of potential stackoverflow. The second that you describe are exactly the "designated initializer", so there you go with your own example ;-) For the others you find info on the P99 link above if you click on "related Pages". –  Jens Gustedt Oct 31 '10 at 7:49

Nothing like the STL exists for C.
There are libs available which provide similar functionality, but it isn't builtin anymore.

Think that would be one of my biggest problems... Knowing with which tool I could solve the problem, but not having the tools available in the language I have to use.

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this is true.could anyone elaborate on which container-class libraries should one use for C ? Or is the answer "write one yourself " ? –  Sandeep Nov 1 '10 at 4:23
    
@Sandeep: For starters, this answer is only right about containers not being in the standard lib. Apart from lacking an STL equivalent (the best part of C++), the C standard library is far superior. POSIX contains tsearch, lsearch, hsearch, and bsearch in addition to qsort which is in libc. Glib is the definitive "Boost" of C, take a look it's packed with goodies (containers included). library.gnome.org/devel/glib/stable. Glib also integrates with Gtk+, a combination which exceeds Boost and Qt. There is also libapr, popular for xplatform stuff like Subversion and Apache. –  Matt Joiner Nov 15 '10 at 11:38
    
I can't find any libs of c which could compete with the stl, they are harder to use, more difficult to maintain, the performance are not the rival of stl when they want to keep the c libs as generic as stl.This is the limitation of c, and the reasons why we can't have something like stl in c library, because c simply don't have the ability to develop something like stl. –  StereoMatching Aug 15 '13 at 8:21

The difference between C and C++ is the predictability of the code's behavior.

It is a easier to predict with great accuracy what your code will do in C, in C++ it might become a bit more difficult to come up with an exact prediction.

The predictability in C gives you better control of what your code is doing, but that also means you have to do more stuff.

In C++ you can write less code to get the same thing done, but (at leas for me) I have trouble occasionally knowing how the object code is laid out in memory and it's expected behavior.

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Whenever I worry about what the code is really doing, I add the -s flag to gcc to get the assembly dump, search for the function of concern, and start reading. It's a great way to learn any compiled language's quirks. –  Mike DeSimone Oct 31 '10 at 1:51
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It's also a waste of time, seeing as C++ generated assembly would be like reading Perl. Bravo for looking anyway. –  Matt Joiner Nov 15 '10 at 11:43

In my line of work - which is embedded, by the way - I am constantly switching back & forth between C and C++.

When I'm in C, I miss from C++:

  • templates (including but not limited to STL containers). I use them for things like special counters, buffer pools, etc. (built up my own library of class templates & function templates that I use in different embedded projects)

  • very powerful standard library

  • destructors, which of course make RAII possible (mutexes, interrupt disable, tracing, etc.)

  • access specifiers, to better enforce who can use (not see) what

I use inheritance on larger projects, and C++'s built-in support for it is much cleaner & nicer than the C "hack" of embedding the base class as the first member (not to mention automatic invocation of constructors, init. lists, etc.) but the items listed above are the ones I miss the most.

Also, probably only about a third of the embedded C++ projects I work on use exceptions, so I've become accustomed to living without them, so I don't miss them too much when I move back to C.

On the flip side, when I move back to a C project with a significant number of developers, there are whole classes of C++ problems that I'm used to explaining to people which go away. Mostly problems due to the complexity of C++, and people who think they know what's going on, but they're really at the "C with classes" part of the C++ confidence curve.

Given the choice, I'd prefer using C++ on a project, but only if the team is pretty solid on the language. Also of course assuming it's not an 8K μC project where I'm effectively writing "C" anyway.

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That "C++ Confidence Curve" bothers me a bit. The way it's written, and the comments, implies that C++ is hopeless, a lost cause, or whatever. Am I missing something? –  Mike DeSimone Oct 31 '10 at 1:49
    
Take the plunge, we'll see you in a few years. Most good programmers come out the other side with a sour taste. –  Matt Joiner Nov 15 '10 at 11:44

Couple of observations

  • Unless you plan to use your c++ compiler to build your C (which is possible if you stick to a well define subset of C++) you will soon discover things that your compiler allows in C that would be a compile error in C++.
  • No more cryptic template errors (yay!)
  • No (language supported) object oriented programming
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C do not support template do not mean we don't need "generic paradigms", in C you have to use void* and macro to mimic template if you need "generic paradigms".void* is not type safe, the errors of macro also pretty crappy, not better than template.Template is much more easier to read and maintain than macro, plus type safe. –  StereoMatching Aug 15 '13 at 8:26

Pretty much the same reasons I have for using C++ or a mix of C/C++ rather than pure C. I can live without namespaces but I use them all the time if the code standard allows it. The reasons is that you can write much more compact code in C++. This is very usefull for me, I write servers in C++ which tend to crash now and then. At that point it helps a lot if the code you are looking at is short and consist. For example consider the following code:

uint32_t 
ScoreList::FindHighScore(
  uint32_t p_PlayerId)
{
  MutexLock lock(m_Lock); 

  uint32_t highScore = 0; 
  for(int i = 0; i < m_Players.Size(); i++)
  {
    Player& player = m_Players[i]; 
    if(player.m_Score > highScore)
      highScore = player.m_Score; 
  }

  return highScore; 
}

In C that looks like:

uint32_t 
ScoreList_getHighScore(
  ScoreList* p_ScoreList)
{
  uint32_t highScore = 0; 

  Mutex_Lock(p_ScoreList->m_Lock); 

  for(int i = 0; i < Array_GetSize(p_ScoreList->m_Players); i++)
  {
    Player* player = p_ScoreList->m_Players[i]; 
    if(player->m_Score > highScore)
      highScore = player->m_Score; 
  }

  Mutex_UnLock(p_ScoreList->m_Lock);

  return highScore; 
}

Not a world of difference. One more line of code, but that tends to add up. Nomally you try your best to keep it clean and lean but sometimes you have to do something more complex. And in those situations you value your line count. One more line is one more thing to look at when you try to figure out why your broadcast network suddenly stops delivering messages.

Anyway I find that C++ allows me to do more complex things in a safe fashion.

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In C you cannot do this "for(int i = 0". –  Victor Oct 30 '10 at 18:20
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Victor it is valid c99 though(or compiling c with a c++ compiler for some typing issue). –  Roman A. Taycher Oct 30 '10 at 20:04
    
I find I cannot trust the safety. So your mutex is scoped. Now you don't know why its being unlocked should an exception "wander" through. You don't even know when it will be unlocked, any part of your code might decide its had enough and throw. Those extra implicit "safeties" may be masking bugs. –  Matt Joiner Nov 15 '10 at 11:45
    
Matt, we do know why it unlocked.In normal case, when the program reach the end of the scope, the mutex will unlock, we don't need to unlock it by hand made codes, it is a maintenance nightmare.If there are exception occur, the mutex will be unlocked, and we could catch the exception and read the error message from it.The error message is good enough or not will depend on how do you play with the exception. –  StereoMatching Apr 24 '13 at 2:00

I think the main problem why c++ is harder to be accepted in embedded environment is because of the lack of engineers that understand how to use c++ properly.

Yes, the same reasoning can be applied to C as well, but luckily there aren't that many pitfalls in C that can shoot yourself in the foot. C++ on the other hand, you need to know when not to use certain features in c++.

All in all, I like c++. I use that on the O/S services layer, driver, management code, etc. But if your team doesn't have enough experience with it, it's gonna be a tough challenge.

I had experience with both. When the rest of the team wasn't ready for it, it was a total disaster. On the other hand, it was good experience.

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