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 const in C and const in 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?

  • 1
    @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. Jan 18, 2012 at 9:54
  • 1
    @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++. Jan 18, 2012 at 10:31
  • 1
    @MatthieuM.: String literals are still of type char[] in C. Jan 18, 2012 at 10:35
  • 1
    @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++? Jan 18, 2012 at 10:37
  • 1
    I know this is an old question, but I just made a small edit to it. It referred to "constants" in C and C++, but the question is actually about const, which is a different thing. const really means "read-only", whereas a constant is a literal, and a constant expression is one that can be evaluated at compile time. (Although in C++, but not in C, a const declaration can create a constant expression; for example, given const int x = 42;, the identifier x is a constant expression in C++.) Jan 22, 2016 at 0:40

3 Answers 3


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 §4.4/4 in the standard.)

  • 4
    @Norswap They break const-correctness because they allow an expression which modifies a const object without an explicit type conversion: int const i = 42; int const* pi = &i; int* pi2; int const** ppi = &pi2; pii = pi; *pi2 = 0;. The last line breaks const-correctness. This example was discovered at the very end of C standardization; as a result, C banned all implicit addition of top level const. When standardizing C++, one person did a more complete analysis, and the rule was liberalized to allow adding top level const as long as all nested levels were also const. Feb 13, 2015 at 11:21
  • 1
    Damn, once again I got tricked by the misleading formatting (there really ought to be a space before the star in const*)... just after pointing it out. Shame on me.
    – Norswap
    Feb 13, 2015 at 17:18
  • Why not write const int i = 42? You keep saying int const i = 42 but no one will write like that. Apr 5, 2021 at 16:22
  • Regarding your 4 upvoted comment: I assume you meant const int i = 42; const int *pi = &i; int *pi2; const int **ppi = &pi2; ppi = π *pi2 = 0; (should be ppi not pii, there is no pii) when you wrote pii, and it's ppi = &pi not ppi = pi since they're pointer to different targets, const in * for ppi and const int for pi, respectively. Apr 5, 2021 at 16:28
  • const int i = 42; is inconsistent. The coding guidelines where I current work recommend int const i = 42;, and that's been the form I've encountered most frequently over the last 20 years. Apr 6, 2021 at 19:19

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.

  • 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, 2012 at 11:20

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.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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