Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I would like to know if you have some links to guidelines to migrating from C to C++.

I'm mainly interested in the constructions to check in the C code that could have problems the compiler can not detect? And what are the workarounds?

Note: Please don't answer with things the compiler is able to detect.

share|improve this question
Can you give us some more context? Why do you want to use C++? – Carl Norum Mar 23 '11 at 0:26
The only way to think about this properly is to realize they are two different languages. They are not supersets/subsets, C++ is not C with extensions, etc. The right way to do things in C++ is vastly different than the right way to do things in C. The moment you take your C code and declare it C++ code, you've just written awful C++ code, which should be scrapped or refactored. – GManNickG Mar 23 '11 at 0:40
@GMan: It's perfectly valid to use C++ as a better C. Every approach that works in C works equally well in C++. C code copied into a C++ project is NOT bad C++ code, it may be suboptimal, but it's not any worse than it was as C code. Just the stricter type checking and prototype requirement is an excellent reason to compile as C++ even if you never use a single C++ feature not found in C. – Ben Voigt Mar 23 '11 at 0:44
@Ben Voigt: "Every approach that works in C works equally well in C++." That's simply not true. An common example is allocating with malloc(); you normally don't do it in C++, and if you still do it, you have to cast from void* to e.g. int*. It's not the case in C. – Bastien Léonard Mar 23 '11 at 0:54
@GMan, @dan04, @Bastien, @Kornel: All of you are measuring by the wrong yardstick. First of all, this is obviously an embedded system, so exceptions are probably totally unacceptable, period. Secondly, even assuming a desktop environment where the additional space requirements and latency of exception handling are not problematic, moving from C to C++ without exceptions is still an improvement. Ok, somewhat writing in that style shouldn't be calling themselves a C++ expert in any interview, but that doesn't mean that the common subset plus a few limited C++ features is worse than C. – Ben Voigt Mar 23 '11 at 5:47

5 Answers 5

up vote 5 down vote accepted

One way to investigate this is just to read through some lists of incompatibilities between C and C++, and see which ones produce run-time issues rather than compilation issues. Such lists are plentiful, good starting places might be:

share|improve this answer
Thanks for the pointers. This is really a good starting point. I know I should think more often in wikipedia. – Vicente Botet Escriba Mar 24 '11 at 19:02
@Vincente: you're welcome. Sorry it still leaves you quite a bit of investigation to do. – Tony D Mar 24 '11 at 19:06

Do you mean learning C++ assuming knowing C? Or do you mean translating a C project to C++? If the latter, and if the project is of any significance size, I'd say don't do it. If the project has any momentum then it's suicide; it's a waste of time, effort, motivation and good spirit.

share|improve this answer
introducing a few c++ only constructs doesn't hurt much (e.g. use STL for some newer function). just don't try to convert every bit of old code into c++. – J-16 SDiZ Mar 23 '11 at 0:36
@J-16 Am I missing something? The potential mixing of new/malloc/delete/free sounds like major trouble to me. – stefan Mar 23 '11 at 0:38
@ J-16 SDiZ: I would even be weary of that. There are a couple of gotchas. Like C++ calling C calling C++ now throwing an exception. Exceptions can not cross over the C boundary here (probably resulting in application termination). – Loki Astari Mar 23 '11 at 0:39
I mean migrating a C project from C to C++. Thanks for your advice. – Vicente Botet Escriba Mar 23 '11 at 0:44
@Martin: Actually, they can. It's still a bad idea. – Conrad Meyer Mar 23 '11 at 1:01

The first two editions of Effective C++ focuses on C programmers coming to C++ running into a lot of pitfalls. I'd say go for Edition 2 of Effective C++ (its basically a rework of first edition).

Maybe my answer is invalid as there actually are a Effective C++ flag for GCC. Also with modern warnings for strict aliasing etc etc you are pretty close to perfect C++ if you get everything to compile with really all warnings enabled.

share|improve this answer

You must unlearn what you have learned.

And more seriously -- the biggest mistake of teaching C++ is teaching it as a superset of C. C and C++ are two different languages with different approaches to solving problems. The syntax may be very similar, but the approach differs. And while most valid C programs are valid C++, this is just a side effect of building C++ on top of C.

Recompiling a C project with a C++ compiler doesn't make the project C++.

share|improve this answer
This is a comment/opinion, not an answer to the question posed. We've no reason to assume Vincente isn't already a good C++ programmer or has to unlearn anything; he's simply asking if there's specific parts of the program that he should search out and verify/correct to get the program running reliably when compiled with the C++ compiler. – Tony D Mar 23 '11 at 1:26
@Tony Thanks for clarifying. You have resumed exactly what I was looking for. – Vicente Botet Escriba Mar 24 '11 at 19:00

Besides the things that you already know, I suppose, new/delete versus malloc/free etc. there is one important danger, namely C style casts. If your code has a lot of these (usually this is bad C code, then) they are difficult to find because of the syntax. But you should convert them all to the correct C++ style casts.

And then there are subtle things that the two just interpret differently, that are difficult to find and may bite you any time from one week to 10 years after you made such a transition.

Identifiers are such a thing. Try to find out if in C++ stat means the function or struct stat. Where in this example this isn't too bad, since probably the compiler will tell you. But there may be others hidden. sizeof expressions are a particular pitfall here, since they can be applied to an expression or to a type.

sizeof in general are something that you should check systematically. E.g sizeof('a') in C is the same as sizeof(int) and in C++ sizeof(char) (so 1). The same holds for enum constants versus enum variables.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.