void foo(const char *s);
is equivalent to:
void foo(const char s);
Are there similar equivalents to the following two?
void foo(char * const s); void foo(const char * const s);
You cannot in C89, but in C99 you can declare the equivalents as:
I thought that a pointer can be null, while an array argument cannot be null (and that the compiler is permitted to optimize knowing that; however on a simple example gcc-4.6 don't do such an optimization, even with -O3).
I am expecting that the compiler would optimize differently the two functions below. It does not. I don't have my C standard at hand to check if it could remove the test in ss below.
In C++, the compiler will automatically convert function parameters of type array of N elements of type T (where
That means that in the pointer case, the top level const qualifier is removed, and in the case of the array it is converted to pointer to. Now, on the other hand you cannot mix both, only because you cannot declare a constant array of N elements of type T, since arrays are always const. That means that you cannot write:
As the type of the parameter is invalid. If it was a valid type, then the conversions would apply, but because it is not, the compiler will reject the code before trying to perform the conversion.
This is treated in §8.3.5/3 of the C++03 standard (and probably somewhere close in C++11)
Note that since the compiler will perform that conversion, it is better to write the actual type that is going to be used by the compiler, following the principle of least surprise:
The compiler is not going to check that the passed array has 10 elements, it reads the declaration as
Will likely trigger some alarms in a code review: are we guaranteed that in all calls to
this will be useful in some cases:
and in C: