I am learning c++11, and while I want to test typeid syntax , I don't understand that why do I have to enter length of array to recognize it ?

For example :

 char name[9];
 if (typeid(name) == typeid(char []) // without length 
     cout<<"Okay"<<endl;             // not print

 char name[9];
 if (typeid(name) == typeid(char [9]) // with length 
     cout<<"Okay"<<endl;              // okay

But if I don't write length 9 it does not work and I have to enter length9. well, Why?

Therefore :

if (typeid(name) == typeid(char))       // only char wrong | ok | logical 
if (typeid(name) == typeid(char *))     // by * wrong      | ok | logical
if (typeid(name) == typeid(char []))    // onle [] wrong   | don't understand 
if (typeid(name) == typeid(char [9]))   // okay            | but why ?

I expect typeid(char[]) to work. In fact what is length of array for?

  • 3
    An array without a length is not an array. – emlai Apr 20 '16 at 12:44
  • 2
    @tuple_cat char[] is an array type, so I'm not sure what you mean by that comment – M.M Apr 20 '16 at 12:46
  • 2
    Don't let T[] notation in function parameters fool you - in function declarations T[] (and T[9] as well) is parsed exactly as if it was T*, and that's the reason why you can pass arrays of any size to functions (arrays decay to pointers to the first element); this does not mean that T[] is a complete type or that T[], T[1] and T[2] are the same type. – Matteo Italia Apr 20 '16 at 12:47
  • 1
    (also, variable definitions such as int foo[] = {1, 2, 3}; are just a shorthand for int foo[3] = {1, 2, 3};; again, int[] is not a complete type, you cannot have variables of type int[]) – Matteo Italia Apr 20 '16 at 12:49
  • @M.M: uhm, where is it specified exactly? I'm referring to C++11 §8.3.5 ¶5 After determining the type of each parameter, any parameter of type “array of T” or “function returning T” is adjusted to be “pointer to T” or “pointer to function returning T,” respectively.; I see no mention to incomplete types here. – Matteo Italia Apr 20 '16 at 12:53

char[2] is something else than char[3]. They are totally separated types. The number of element is not just a parameter. It is part of the type itself.

You can consider the number of element as follow:

template <class T, size_t N>
class array{
    T[N] data;

if you want to use this class,you should write:

array<int,6> foo;
array<int,7> bar;

At compile time array type will be converted to something like this:

array_int_6 foo;
array_int_7 bar;

It is obvious that array_int_6 != array_int_7. Thus leads to : typeid(foo) != typeid(bar) and typeid(array<int,6>) != typeid(array<int,7>)


The size of an array is part of its type. A char[7] is not the same thing as a char[8]. We can demonstrate that with

void foo(char (&arr)[6]) {}

Now with that function we could only pass an array of the type char[6]. looking at this example you can see the compiler will complain for arrays that do not match the size specified in the function.

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