I want to define some generic pointer (? but not a void pointer) using this code:

class A

template<typename T>
using ptr = T*;

using ubyte = uint8_t;


    const ptr<ubyte>
    getColor1() const {
        return &colors[0];

    const ubyte*
    getColor2() const {
        return &colors[0];


    ubyte colors[4];

However, the getColor1() won't compile. What's the difference between this two functions ?

gcc says:

error: invalid conversion from 'const ubyte* {aka const unsigned char*}' to 'A::ptr<unsigned char> {aka unsigned char*}' [-fpermissive]|


The deleted answer says I could do this:

//option 1
template<typename T>
using const_ptr = const T*;


//option 2
const ptr<ubyte>
getColor()  //remove cv-qualifier
    return &colors[0];

From option1,

It constructs now to const const, what does const const means?

From option2,

Why just removing cv-qualifier makes this compile?

  • @0x499602D2 I put the error message in my post. – mr5 Mar 4 '14 at 2:03
  • Option 2 makes it compile, but does not do what you want. It returns a const pointer to a non-const ubyte, but you can't assign a new pointer to the return value anyway so that const is relatively useless :) – melak47 Mar 4 '14 at 2:44
  • @melak47 Thanks, that makes sense. – mr5 Mar 4 '14 at 2:50
  • @AndrewTomazos yeah I think we've established that much :p – melak47 Mar 4 '14 at 2:57

const ptr<ubyte> is the same as const (ubyte *) which is not the same as const ubyte (*). You are trying to return a const pointer to a non-const char, which the compiler won't allow because you've declared the function itself const; all members become const because of that. The compiler won't automatically cast const to non-const without a const_cast.

To make the difference clearer, the first is a const pointer to a non-const char and the second is a non-const pointer to a const char. The first allows the pointed-to characters to change, even though the pointer itself can't change. Since the function was marked as const it can't return anything that would allow its members to be modified.

The best way to fix it:

ptr<const ubyte>
getColor1() const {
    return &colors[0];
  • const (ubyte *) is not a valid type-id. You mean ubyte* const. – Andrew Tomazos Mar 4 '14 at 2:42
  • @AndrewTomazos, actually I think I mean ubyte (* const): ideone.com/GQy6yx. I hate C/C++ syntax for pointers and type modifiers, it's not intuitive at all. – Mark Ransom Mar 4 '14 at 2:59
  • ubyte* const and ubyte (* const) are equivalent, the parenthesis are redundant: See ideone.com/iCeYcz Yes, C++ declarator precedence takes some time to learn. Search for the "spiral rule". – Andrew Tomazos Mar 4 '14 at 3:06
  • @AndrewTomazos, I know the parentheses are redundant but I was trying to make a point. That point being where the const was being applied. – Mark Ransom Mar 4 '14 at 3:52
  • Thanks Steve Jobs! – mr5 Mar 4 '14 at 3:55

Because of the syntax of your ptr template, const ptr<ubyte> first makes it a ubyte*, then applies the const, resulting in a ubyte * const, a constant pointer to an ubyte.

In order to return a pointer to a const ubyte, you need to feed a const ubyte into your pointer template, so constness is applied first:

ptr<const ubyte>

1) "what does const const means?"

const T* const pT = new T;

Means const pointer pT - you cannot assign pT to another object; to a const object of type T - you cannot change the object which is pointed by pT.

2) "Why just removing cv-qualifier makes this compile?"


method without const modifier can modify the object. It now returns A::ubyte* which can be converted to a const type such as declared as return type: A::ubyte* const (const ptr< ubyte > )

  • That isn't valid. You mean const T* const pT. – Andrew Tomazos Mar 4 '14 at 2:45
  • I mean const const T*, not the one with cv-qualifier – mr5 Mar 4 '14 at 2:47
  • T*, const T*, T* const and const T* const are all valid and distinct types. const const T* is not valid. – Andrew Tomazos Mar 4 '14 at 2:49
  • @Andrew Tomazos - thanks, hurried up – Alexey Voytenko Mar 4 '14 at 2:51
  • But how does this one constructs then const const_ptr<ubyte> const? – mr5 Mar 4 '14 at 2:52

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