Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have the following function in C++ :

char** f()
    char (*v)[10] = new char[5][10];
    return v;

Visual studio 2008 says the following:

error C2440: 'return' : cannot convert from 'char (*)[10]' to 'char **'

What exactly should the return type to be, in order for this function to work?

share|improve this question
could you not just do char** v = new char[5][10];? –  ridecar2 Aug 21 '11 at 14:10
Do you want to return a function-pointer-array or a multidimensional array of char? –  Nobody Aug 21 '11 at 14:10
Because a pointer to pointers is not the same as a pointer to arrays. –  Lightness Races in Orbit Aug 21 '11 at 14:16
@Nobody: What do function pointers have to do with it? –  Lightness Races in Orbit Aug 21 '11 at 14:17
@Tomalak: Oh I think I saw too much paranthesis ^^ –  Nobody Aug 21 '11 at 14:18

3 Answers 3

up vote 16 down vote accepted

char** is not the same type as char (*)[10]. Both of these are incompatible types and so char (*)[10] cannot be implicitly converted to char**. Hence the compilation error.

The return type of the function looks very ugly. You have to write it as:

char (*f())[10]
    char (*v)[10] = new char[5][10];
    return v;

Now it compiles.

Or you can use typedef as:

typedef char carr[10];

carr* f()
    char (*v)[10] = new char[5][10];
    return v;


Basically, char (*v)[10] defines a pointer to a char array of size 10. It's the same as the following:

 typedef char carr[10]; //carr is a char array of size 10

 carr *v; //v is a pointer to array of size 10

So your code becomes equivalent to this:

carr* f()
    carr *v = new carr[5];
    return v;

cdecl.org helps here:

  • char v[10] reads as declare v as array 10 of char
  • char (*v)[10] reads as declare v as pointer to array 10 of char
share|improve this answer
Why downvotes? Please specify reason? –  Nawaz Aug 21 '11 at 14:27
You didn't answer the question. –  Lightness Races in Orbit Aug 21 '11 at 14:29
@Tomalak: The question is What exactly should the return type to be, in order for this function to work?. So how may post doesn't answer the question? –  Nawaz Aug 21 '11 at 14:30
This is an excellent answer. Great job Nawaz. –  user195488 Aug 21 '11 at 16:25
I'm the OP. I wanted both questions answered. However, I admit that the way I wrote my post can mislead some people into believing that the second question was what really mattered and that the one in the title wasn't so important. @Nawaz Your explanations were pretty clear to me. Thanks. –  conectionist Aug 21 '11 at 19:19

A pointer to pointers is not the same as a pointer to arrays.

very crude diagram

(In particular, notice how sizeof(*ptr1) is sizeof(char)*6, whereas sizeof(*ptr3) is sizeof(char*) — this has serious ramifications for pointer arithmetic.)

new char[5][10] gives you a char (*)[10] (which has absolutely nothing to do with function pointers, by the way), because the pointers and chars are laid out in that fashion in memory (my second example).

This is not the same as char** (which represents a different layout), so a conversion between the two makes no sense; hence, it is disallowed.

So your function's return type must be char (*)[10]:

char (*f())[10] {
    char (*v)[10] = new char[5][10];
    return v;

Of course, this is really ugly, so you're far better off with a std::vector<std::string>.

This FAQ entry explains it best, under the title "Conversions".

share|improve this answer
That visualization is key to understanding the difference. Note that I would second the recommendation of the std::vector<std::string> as it's what you probably mean if dealing with a set of strings. –  s1n Aug 21 '11 at 17:00
+1 for showing why pointer decay doesn't work the same way here as it would with char[N] -> char*. –  Karl Knechtel Aug 21 '11 at 18:53
@Tomalak: Thanks for the explanation. It's pretty clear. –  conectionist Aug 21 '11 at 19:31
The first "[One or more]" are both incorrect - ptr1 and ptr2 are each a single pointer. ptr2 is "A pointer to one or more arrays of six char", and ptr1 is "A pointer to one or more pointers to one or more char". –  caf Aug 22 '11 at 5:01
@Tomalak Gerek'kal: That incrementing applies to the objects that it points to. There is still exactly one root pointer in both those examples - in the ptr1 case there is only two levels of "one or more", not three. In the ptr2 case there is one level, but it attaches to the arrays not the base pointer. The arrays themselves in the second example should also be shown as sequentially arranged, as they must be to be referenced as ptr2[n]. –  caf Aug 22 '11 at 5:49

Because char** and char (*)[10] are two different types. char** is a pointer to pointer(to char), while char (*)[10] is a pointer to an array(of size 10) of char. Resultantly, the moving step of char** is sizeof(void *) bytes which is 4 bytes on win32 platform, and the moving step of char (*)[10] is sizeof(char) * 10 bytes.


   char *c = NULL;
   char **v = &c;
   cout << typeid(v).name() << endl;
   cout << (void*)v << endl;
   v += 1;
   cout << (void*)v << endl;

   char d[10];
   char (*u)[10] = &d;
   cout << typeid(u).name() << endl;
   cout << (void*)u << endl;
   u += 1;
   cout << (void*)u << endl;


char * *
char (*)[10]

To use char (*)[10] as a function's return type(or as input/output parameter of the function), the easiest and most readable way is to use a typedef:

// read from inside-out: PTRTARR is a pointer, and, it points to an array, of chars.
typedef char (*PTRTARR)[10];

Note that it can easily be mixed up with typedef of an array of pointers, if not careful:

// operator[] has higher precedence than operator*,
// PTRARR is an array of pointers to char.
typedef char *PTRARR[10];


Arrays and Pointers

share|improve this answer
Your answer seems a bit more complicated than it needs to be, @Eric Z, but I kind of get what you're saying. Thanks. –  conectionist Aug 21 '11 at 19:23
No problem, just hope you not only understand WHAT, but also WHY & HOW;) –  Eric Z Aug 22 '11 at 2:44
It's precisely as complicated as the subject under discussion, @conectionist. It's worthwhile studying all the answers! –  Lightness Races in Orbit Aug 22 '11 at 12:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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