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I have a class with a 2D array of ints implemented as an int**. I implemented an accessor function to this 2D array as follows, returning a const int** to prevent the user from being able to edit it:

const int** Class::Access() const
     return pp_array;

But I got the compilation error "invalid conversion from int** to const int**". Why is a promotion to const not allowed here? How can I give the user access to the information without editing rights?

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Note: your variable names cannot begin with numbers. –  chris May 4 '12 at 3:45
Right, it doesn't actually in the code, that's just an oversight by me in generalising the names - edited out now :) –  Bugalugs Nash May 4 '12 at 3:48
A Matrix class encapsulating a 1D vector would work really well for holding the data too. Much better than a 2D pointer array. It also eliminates confusion such as this. –  chris May 4 '12 at 3:49
are you also getting the '...discards qualifiers...' error message? –  Aditya Kumar May 4 '12 at 3:52
I haven't learned about vectors yet unfortunately... –  Bugalugs Nash May 4 '12 at 3:54

2 Answers 2

up vote 4 down vote accepted

I was mistaken about the constness of the method being the reason for the error. As Ben points out, the const-ness of the method is irrelavent, since that applies only to the value of the exterior pointer [to pointers to ints], which can be copied to a mutable version trivially.

In order to protect the data (which is your preferred outcome) you should make both the ints and the pointers to ints constant:

int const * const * Class::Access() const
   return pp_array;

Will work.

If you prefer to have the const in front you can also write the declaration like so:

const int * const * Class::Access() const;

but since the second const applies to the pointers, it must be placed to the right (like the const which applies to the method) of the asterisk.

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why has the const been removed from before the int? is the data pointed to still constant here? –  Bugalugs Nash May 4 '12 at 3:53
@BugalugsNash, read it right to left. The int is still const. However, if there's nothing to the left of the const, it applies to the right. –  chris May 4 '12 at 3:54
@AdityaKumar Except that the 'consts' must go after the pointer's stars; so I wrote it that way to be consistent. –  Greyson May 4 '12 at 3:55
The reasoning in this answer is totally wrong. –  Ben Voigt May 4 '12 at 3:56
@BugalugsNash: I just finished typing my own answer. –  Ben Voigt May 4 '12 at 4:00

Greyson is correct that you'll want to use const int* const*, but didn't explain why your original version failed.

Here is a demonstration of why int** is incompatible with const int**:

const int ci = 0;
const int* pci = &ci;
int* pi;
int** ppi = π
const int** ppci = ppi; // this line is the lynchpin
*ppci = pci;
*pi = 1; // modifies ci!
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While this is correct, it does not address the reason that the int** needs to be const in this instance; The 'const'ness of the method is why returning the mutable pointers to pointers to ints is the key. –  Greyson May 4 '12 at 4:01
There, now it does :) –  Greyson May 4 '12 at 4:02
@Greyson: The const-ness of the method makes no difference, no one is writing pp_array = anything. The new wording I just added is an explanation why your reasoning was totally wrong. –  Ben Voigt May 4 '12 at 4:02
Without the const-ness of the method the return specification of int const ** is fine, though. –  Greyson May 4 '12 at 4:04
@Greyson: With a const method, a return specification of int** is still fine. I explained why. However, he wanted to return a read-only pointer, i.e. int const **, but const must be added from the outside in. Also, did you even read the warning message? –  Ben Voigt May 4 '12 at 4:05

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