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Well that may sound like a troll question, but since C++ seems hard to fully master (and I never really knew STL was actually "part" of it), I wanted to know what are the disadvantages to use C instead of C++ when not relying much on OOP.

C++ can have a very much sophisticated syntax sometimes, which is kinda confusing me while trying to use OGRE3D for example...

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Is the syntax of C++ that much more difficult than C? And, since when is C easy to master? :) –  George Marian Jun 27 '10 at 14:59
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@George, +1. Who says C++ is better than C at all? –  Carl Norum Jun 27 '10 at 15:01
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And why "except OOP"? Any language could be considered inferior to any other if you place arbitrary restrictions on the feature set or normal usage. –  detly Jun 27 '10 at 15:03
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OOP is just an idea; it can be done with C (pointers to functions wrapped in macros realising this pointers as methods, pointers to other structs as inheritance, cases for polymorphism), but has a poor language support there. –  mbq Jun 27 '10 at 15:04
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It would be better to ask what C++ has that C doesn't. That way, if someone once to read it as "what does a castle have that a straw hut doesn't" and another reads it as "what does a ship with barnacles have that a ship without barnacles doesn't", they can both answer your question. –  Tim Schaeffer Jun 27 '10 at 15:28
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10 Answers

up vote 6 down vote accepted

Why C++ is better than C? Besides the obvious list of features, in my opinion the real answer is that there's no good reason to still use C instead of C++. Even if you don't use OOP, you can use it as a better C. Even if you use just once a unique feature of C++ in your program, C++ is already a winner.

On the other hand, there's no disadvantage in using C++: it retains the performance goals of C and it is a quite low level language, while allowing very powerful things. And you will not miss any C feature using C++!

And don't forget the wide user base and the rich libraries and frameworks available.

By the way, C99 has added some interesting features but after a decade there's still very limited compiler support (so you are bound to ANSI C). In the meantime C++ evolved as well and the compiler vendors are committed to providing conforming implementations.

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One good reason would be much faster compilers. The second, there're devices that still don't support C++. –  Pavel Radzivilovsky Jun 27 '10 at 22:41
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Faster compilers? In the last 15 years research and development in C/C++ compilers is almost entirely driven by C++. Performance gains in C compilers are a direct consequence of C++ compiler improvements. And almost any embedded device can be programmed with C++ (with the exception of very simple PICs where you anyway would use assembly instead of C...) –  Lorenzo Jun 27 '10 at 22:48
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Reasons to use C: Because it has a clear readable spec, understandable by nearly anyone with a small amount of patience. Because it has a formally specified syntax. Because name mangling is obnoxious in some circumstances, even if you can work around it. Because C99 has a whole bunch of nice features that still aren't in C++. Because I frequently deal with platforms that don't have C++ support. –  Stephen Canon Jun 27 '10 at 23:31
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Ok: inane compiler errors, name mangling, code size, no possibility of operator overloading (sometimes people write software in groups larger than 1), etc, etc. Sure, I think C++ is a great language and has its place but to say there is no reason to use ANSI C because of C++ is a bit ridiculous. –  BobbyShaftoe Jun 28 '10 at 4:40
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The only true reason is a platform without C++ support (personally, as an embedded developer, I found that only once). All other reason are pointless and typical from people that don't really understand C++. –  Lorenzo Jun 28 '10 at 10:24
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Non-OO features that C++ has that C does not:

  1. Templates
  2. Function overloading
  3. References
  4. Namespaces
  5. You can use structs and enums without writing struct or enum before every declaration or using typedefs.
  6. Even if you don't define your own classes, using C++'s string and container classes is still often more convenient and safe to work with than c-style strings and arrays.
  7. Type safety (even though some would call it weak)
  8. Exceptions
  9. Variable declarations in conditionals, C99 only has it in for
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8. variable declarations in conditionals, C99 only has it in for –  Jens Gustedt Jun 27 '10 at 15:09
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Type safety is probably the first and most significant advantage to an experienced C programmer. –  Ben Voigt Jun 27 '10 at 15:43
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@Amnon: I think you can leave out return 0; in C99 as well. –  FredOverflow Jun 27 '10 at 15:55
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10. inane, long-windend errors by compiler implementations. (that's a feature, right? :) ) –  BobbyShaftoe Jun 28 '10 at 4:30
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@BobbyShaftoe: I'd say that's a subfeature of 1. –  sepp2k Jun 28 '10 at 11:32
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I'm a big fan of C who over time has become a big fan of C++. One of the big reasons for that is the STL ( the Standard Template Library ) and Boost.

Between the two of them it makes it very easy to write powerful portable applications.

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Note that both STL and Boost rely on the OOP attribute of the C++ language. –  rursw1 Sep 20 '10 at 10:50
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One "feature" that hasn't been mentioned much (but I think is noteworthy) is that the C++ compiler community seems to be willing to go to a lot more work to produce conforming implementations. Back when the standard that eventually became C89/90 was in work, nearly every compiler vendor worked at conforming with the latest drafts of the standard, and (especially when the standard was close to complete) really put a lot of work into conforming as closely as they could.

That's no longer the case. The C99 standard was (obviously enough) completed over a decade ago, but there's still basically only one implementation that makes a serious attempt at conforming with the whole standard (Comeau). A few others (e.g., gcc) have added some C99 features, but are still missing a fair number of others. One (pcc) is in the rather paradoxical position of having added nearly all of the features specific to C99, but doesn't come very close to meeting the requirements of C89/90.

Given the complexity of C++, producing a conforming implementation is a much more difficult task. Despite this, I'd guess there are already more implementations that are at least really close to conforming with C++ 0x (due to be ratified a year or two from now) than with C99 (ratified roughly a decade ago). Just to pick an arbitrary number, I'd expect to see 3 conforming1 implementations of C++0x sooner than 3 conforming implementations of C99 (in fact, I'd almost expect that many the day it's ratified).

  1. Of course, "conforming" in this case means "to a practical degree" -- I'm pretty sure every implementation of C and C++ has at least a few defects that prevents perfect conformance. The same is true for most other languages, the only obvious exceptions being languages that are defined in terms of a particular implementation.
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That's an interesting point. And I agree, it is a pretty noteworthy difference. +1 –  jalf Jun 27 '10 at 21:35
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+1, but: besides Edison Design Group and the gcc team, are there really that much "original" (not "flavour") C++ compliler vendors? The abovementioned strength of C++ may actually appear much "weaker", I mean. –  mlvljr Jun 27 '10 at 22:39
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@mlvljr: Microsoft develops its own frontend for Visual C++. I agree with Jerry's point, especially since some major vendors (like Microsoft) have abandoned C standards conformance altogether. –  James McNellis Jun 28 '10 at 3:16
    
This may be true but I think we can live without C99. I think it's more interesting to restrict the discussion to ANSI C90. –  BobbyShaftoe Jun 28 '10 at 4:35
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@Bobby: If you restrict C to C89, then I'd say the single biggest factor is much better I18N support. In C, it's a pain just to print out a number formatted as "1,234.56" or "1.234,56" (depending on locale) instead of "1234.56" (and formatting something like currency correctly is harder still). C++ makes these trivial. –  Jerry Coffin Jun 28 '10 at 4:42
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References are done automatically and much safer compared to pointers, the standard library is far more extensive, templates make code extremely customizable and substantially faster and safer. C++ offers fantastic code use/reuse and organization. Also, if you don't rely much on OOP, then you're doing it wrong. There's times when objects are not appropriate, but they're not the majority of scenarios.

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References are const pointers + syntactic sugar. There's no advantage in safety whatsoever, and they eliminate the visual cue that a variable is passed by reference. –  Ben Voigt Jun 27 '10 at 15:45
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@Ben: You just don't know how to use them. A pointer can point to an array, a reference can't. A pointer can have many bad things happen to it, like different indirection levels and int conversions. None of these things happen to references. When you have an int&, an int is on the other end. As for visual cue, it's in the &. –  DeadMG Jun 27 '10 at 15:52
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@Dead: Hm? What about int array[10]; and int (&ref)[10] = array;? –  FredOverflow Jun 27 '10 at 15:58
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@DeadMG: You say that "When you have an int&, an int is on the other end", but that is a logical fallacy (overgeneralization). Quick counter-example: int* p = new int(); int& i = *p; delete p; Now you have this wonderful int& i which has no int. Anything that can go wrong with a pointer can go wrong with a reference as well, because for any pointer p, *p is a reference. References are NOT magically safer than pointers. Also, you got the visual cue backwards, & in an actual argument list indicates a pointer, there is no cue for references. –  Ben Voigt Jun 28 '10 at 3:06
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-1 for "doing it wrong" and mythical "reference safety". –  SigTerm Jun 28 '10 at 8:51
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[Note: this is a subjective response but the question itself tends to invoke subjective responses by nature].

C++ is a multi-paradigm language and there's a lot more to it than OOP. However, to suggest it's simply better than C is a bit... bold. :-D In the hands of an experienced C coder, and for the right purposes, C code can be very elegant and simple. Consider the Lua interpreter which is coded in C; it compiles to a very small binary which would have likely been a lot bigger even in the hands of an equally skilled C++ programmer, and is therefore well-suited for embedded use. C generally won't be as safe (ex: implicit casting, requires manual resource cleanup, etc) which is one thing which C++ strives to do a little better than C, but it also won't burden the programmer with awkward casting syntax (in C++ one shouldn't need to cast often, but in C it's quite common), e.g.

On the other hand, and I'm trying to speak very generally, C++ can actually make it easier to write more efficient code, particularly for code that needs to work across multiple types. The qsort vs std::sort benchmarks are a classic example of this and how C++, through templates and inlined function objects, can provide cost-free abstractions. In C one would have to write a separate sorting algorithm for every type by hand or stuff it in a macro to achieve comparable results.

Most C++ programmers who migrated from C never look back. I might be an oddball, but I still find C to be useful for implementing small scale libraries. For a start, it's a bit easier to port and builds super fast. For these kinds of things, I take implicit casting for granted. I would hate to work with any C code on a large scale, however, and have unfortunately have to do this from time to time.

As for specific differences, sepp2k already pointed out a pretty comprehensive list.

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C++ is simply better than C, because C doesn't offer anything that C++ doesn't, but C++ offers a lot than C++ doesn't. –  DeadMG Jun 27 '10 at 15:53
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@DeadMG: It is simply not true that C doesn't offer anything that C++ doesn't: long long int data type, variadic macros, compound literals, variable-length arrays, native complex-number types, and the restrict keyword. –  Dipstick Jun 27 '10 at 16:04
    
Faster (albeit still not fast) compilers. –  el.pescado Jun 27 '10 at 16:15
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And, i'd note that saying "X has all features of Y and some more, so X is better" is just plain wrong. Imagine a programming language that has all features of all other programming languages. Would it be the best programming language in the world? I doubt it. –  el.pescado Jun 27 '10 at 16:17
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@DeadMG C++ allows freedom: the freedom to create the worst kinds of designs imaginable in addition to the best kinds. It is easy enough to teach a C programmer simple guidelines like prefer defining structs in a cpp file instead of a header (avoiding data coupling) and provide functions to act on opaque pointers. That won't yield great designs (semi-OOP procedural interfaces at best), but is unlikely to yield hopelessly bad ones either. Now take the same average programmer and give him the ability to define class hierarchies, and he'll make a disaster of the situation. –  stinky472 Jun 29 '10 at 2:58
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You can continue to write essentially C code but compile it as C++ and get the benefit of stronger type checking, and therefore more robust code.

You can then if you wish introduce the useful elements of C++ that have nothing to do with OO, such as a built-in bool, function overloading, and better defined const handling (no need to use macros for literal constant symbols).

It is not even too much of a stretch to using some of the easier to understand and use elements of the standard library such as std::string and iostreams, and even std::vector as a "better array"; you do not have to learn much C++ or understand OOP to take advantage of these improved interfaces.

Between OOP an procedural programming there is an intermediate Object Based Programming, which C++ supports and which is simpler to understand and learn and almost as useful as full OOP. Basically it uses abstract data types rather than full classes and eschews inheritance and polymorphism. To be honest it is what many C++ programmers write in any case.

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If you write C code and feed it through a C++ compiler, how does that give you stronger type checking To benefit from stronger type checking, you have to write more type safe code, which means it is no longer "essentially C". –  jalf Jun 27 '10 at 21:36
    
@jalf: The C++ compiler will perform stronger type checking. Type safe code will compile in both C and C++, but the C compiler doesn't give you as much feedback about things like type-punning. –  Ben Voigt Jun 28 '10 at 3:09
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Other than the upsides that sepp2k noted (and I aggree with) it certainly also has some little downsides that have not directly to do with OO. Come to mind the lack of __VA_ARGS__ for the preprocessor and the context sensitivity. Consider something like:

switch (argc) {
 case 1: /* empty statement */;
         toto T;
 case 2: break;
}

In C, whenever the compiler encounters such a piece of code, and argc and toto are known, this is valid. (Sure we might get a warning for the unitialized T afterwards, whence we use it.)

In C++ this depends on the type toto. If it is a POD, everything is fine (well, as fine as for C). If it has a constructor the code is not valid: jump to case label crosses initialization of 'toto T'.

So in some sense, for C++ you must understand the underlying types to see if a control flow is valid.

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Note that __VA_ARGS__ was added to C in the C99 standard, after the current C++ standard was published. C++0x adds support for the C99 preprocessing features. –  James McNellis Jun 27 '10 at 20:58
    
It is illegal in C (even in C99) to declare a variable directly after a label, because a declaration is not a statement and labels must only be part of a statement. –  dreamlax Jun 28 '10 at 8:53
    
@dreamlax: thanks, I corrected the syntax –  Jens Gustedt Jun 28 '10 at 10:15
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One reason to write libraries in C is that it is very easy to use that library across languages since the C ABI is very simple, compared to the name-mangling mess that is C++ ABI. Creating C interfaces to the C++ libs might be a decent solution, but if you can express your API easily with C syntax, why write it in C++ to begin with?

Many C99 features are very nice, and are still not in C++.

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Instead of repeating myself, I just post a link to Felix von Leitners excellent Presentation The dark side of C++. There's alot of things wrong with C++, and it's one of the top reasons we as security experts have so much to do.

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