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I understand what const correctness means and my question is not about what const correctness is. So I am not expecting an explanation or C++-FAQ links for that.

My questions are:

  • What are the semantic differences between constants in C and C++? and
  • What is the reason for the difference?

Quotes from the respective standards which make the differences clear would be nice to have.

I regularly switch between C and C++ and I would like to know the important points that one should keep in mind while doing so.

I don't seem to remember the reason for these (special thanks if you can provide a reasoning) but from the top of my mind, I can remember:

  • const variables in C++ have internal linkage by default, while in C they have default external linkage;
  • const objects can be used as compile-time values in C++, but cannot be used as compile-time values in C;
  • Pointers to string literals must be an char const* in C++ but in C it can be char*.

What am I missing?

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Pointer to an String literals must be an const in c++: do you mean char *const or char const*? – Benoit Jan 18 '12 at 9:51
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@Als: In early days of C, there was no const, so many programs were written assuming that "Hello, World" was of type char[] when it is of type char const[] (and thus decays to char const*. I think most compilers just didn't want to force people adding const everywhere (by default), but the -pedantic flag should report those violations. – Matthieu M. Jan 18 '12 at 9:54
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@Matthieu: Also, those are only actually violations on a C++11 implementation. In C++03 there's a deprecated conversion from narrow string literals to char* (4.2/2), which as far as I can see has been removed in C++11. So C++03 string literals were of type "array of n const char", but nevertheless could decay to char*. Implementations don't have to warn about use of deprecated features, although gcc does by default since -Wwrite-strings is on by default for C++. – Steve Jessop Jan 18 '12 at 10:31
@MatthieuM.: String literals are still of type char[] in C. – u0b34a0f6ae Jan 18 '12 at 10:35
@Als: how much do you want to get into? In the libraries, for example, C++ has separate const and non-const versions of strchr and friends, while C doesn't. The reason is that C doesn't have function overloading and can't be bothered with defining two different functions, so instead it has a single const-incorrect function. Does that count as a difference between constants in C and C++? – Steve Jessop Jan 18 '12 at 10:37
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3 Answers

up vote 15 down vote accepted

In addition to the differences you cite, and the library differences that Steve Jessop mentions,

char* p1;
char const* const* p2 = &p1;

is legal in C++, but not in C. Historically, this is because C originally allowed:

char* p1;
char const** p2 = &p1;

Shortly before the standard was adopted, someone realized that this punched a hole in const safety (since *p2 can now be assigned a char const*, which results in p1 being assigned a char const*); with no real time to analyse the problem in depth, the C committee banned any additional const other than top level const. (I.e. &p1 can be assigned to a char ** or a char **const, but not to a char const** nor a char const* const*.) The C++ committee did the further analysis, realized that the problem was only present when a const level was followed by a non-const level, and worked out the necessary wording. (See ยง4.4/4 in the standard.)

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this is old, but I'm just curious, any ever try to get this fixed in C? seems like there's no reason not to, right? – Stephen Lin Mar 16 at 20:14
@StephenLin The only reason is that people who still use C are caught up in the past, and tend to ignore const. – James Kanze Mar 16 at 22:12
fair enough, but if they don't like const, shouldn't they be jumping at the chance to remove an unnecessary restriction on const qualified types? I can understand wanting to allow unsafe things like implicit conversion of string literals to char *, but this is pretty much the opposite, so it's a bit surprising. oh well, was just curious if you knew anything new about the situation...thanks! – Stephen Lin Mar 17 at 6:25
up vote 8 down vote

In C const declarations do not produce constant expressions, i.e. in C you can't use a const int object in a case label, as a bit-field width or as array size in a non-VLA array declaration (all this is possible in C++). Also, const objects have external linkage by default in C (internal linkage in C++). Const-correctness rules of C++ language support the following standard conversion

int **pp = 0;
const int *const *cpp = pp; // OK in C++

int ***ppp = 0;
int *const *const *cppp = ppp; // OK in C++

These will not work in c.

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In C, if I have void f(void **p);, I can't do const int *x; f(&x); (if f used the return value instead of an output parameter, there would be no problem). Does your example mean this code is OK in C++? – ugoren Jan 18 '12 at 11:20
@ugoren - Prasanth was talking about void f(const int* const *) and int *p; f(&p); scenario (yours is opposite direction in terms of constness). – Attila Apr 16 '12 at 14:40
up vote 3 down vote

The reason for some of these differences is to allow us to get rid of preprocessor macros, which was one of Bjarne's early design goals.

In C we might have

 #define MAX_FOOS 10
 int foos[MAX_FOOS];

In C++ we'd prefer to be able to write

 const int max_foos = 10;
 int foos[max_foos];

For that to work max_foos needs to be usable in a constant expression. It also needs to have internal linkage, so the definition can appear in a header without causing multiple definition errors, and more importantly to make it easier for the compiler to not allocate any storage for max_foos.

When the C committee adopted const from C++ they didn't adopt the antipathy to macros, so they didn't need these semantics.

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