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I know this question asked many times and I'm not asking how to do it because i did that at compile-time. My question is how it works because that is what i don't understand.

When passing a char[] to a function it looses its information and become char* and because of that we can not get size of character array at compile time using template, so i tried and passed the string itself and it worked:

template <int N> inline int arr_len(const char (&)[N]) { return N - 1; }

#define STR "this is an example!"

const char *str_ptr = STR;

int main()
  int array_size = arr_len(STR);

I tested this code with VC++ 2008, Intel C++ 12 and GCC 4.7 and it works.

By passing the string itself the compiler sees it as const char[] - at least that what i think - and he able to get the string size, How is that possible?

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There will be a different version of arr_len for every different size of array you use it with, and it just returns the length of the only type of array it can work with. – Seth Carnegie May 4 '12 at 20:26
that's right but with optimization it will be the string length only. – Muhammad Aladdin May 4 '12 at 20:36
Actually it has nothing to do with optimisation. This all happens at compile time. – Seth Carnegie May 4 '12 at 20:37
This has been discussed a lot since 2004 ( (from the middle of the text). – rubber boots May 4 '12 at 20:39
@SethCarnegie the template deduction will happened at compile-time but replacing the function call with the final value will occur only with optimisation. – Muhammad Aladdin May 4 '12 at 20:52
up vote 3 down vote accepted

String literal type is an array, not a pointer. So, when you pass it directly to a function that takes array by reference, it doesn't decay to a pointer.

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That is because STR is a macro that is replaced before the compiler starts.

It replaces it with "XXXX" which is a string literal (not an array).

To get this to work do:

char const  str_ptr[] = "XXX YYY";
              //  ^^^^    Compiler works out size

int main()
    int array_size = arr_len(str_ptr);
                         //  ^^^^^^^ pass in an object that has a type.
share|improve this answer

In C++ when a function's parameter type is tentatively identified as an array, the parameter type is 'adjusted' to be a pointer to the array's element type.

So when you write: void foo(char c[]) the compiler effectively rewrites it to be void foo(char *c). Then when you pass an array:

char x[10];

C++ finds void foo(char *c) and sees that it can convert your char [] argument into a char * and call the function, and this is exactly what it does.

However, this adjustment to the function's type only occurs when the written parameter type is an array. A reference to an array is not an array, so no equivalent adjustment is performed when you declare a function void bar(char (&c)[10]).

The second bit needed to answer your question is that the type of a string literal is an array of const char. When you write the string literal directly in the function call, with a function that takes const char (&)[N] C++ sees that it can pass a reference to the array instead of doing the "array -> pointer to first element" conversion. So that's what it does and the template type deduction finds the right number for the size of the string.

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