when I do this (in my class)

        re_sprite_eyes = new sf::Sprite();
        re_sprite_hair = new sf::Sprite();
        re_sprite_body = new sf::Sprite();

    sf::Sprite* re_sprite_hair;
    sf::Sprite* re_sprite_body;
    sf::Sprite* re_sprite_eyes;

Everything works fine. However, if I change the declarations to this:

    sf::Sprite* re_sprite_hair, re_sprite_body, re_sprite_eyes;

I get this compiler error:

error: no match for 'operator=' in '((Entity*)this)->Entity::re_sprite_eyes = (operator new(272u), (<statement>, ((sf::Sprite*)<anonymous>)))

And then it says candidates for re_sprite_eyes are sf::Sprite objects and/or references.

Why does this not work? Aren't the declarations the same?

  • 7
    You have discovered an interesting property of C/C++ declarations: the asterisk belongs to the variable, not to the type. One way to constantly remind yourself of this is to put space after the type and before the asterisk. – dasblinkenlight Nov 29 '12 at 3:23

sf::Sprite* re_sprite_hair, re_sprite_body, re_sprite_eyes;

Does not declare 3 pointers - it is one pointer and 2 objects.

sf::Sprite* unfortunately does not apply to all the variables declared following it, just the first. It is equivalent to

sf::Sprite* re_sprite_hair;
sf::Sprite re_sprite_body;
sf::Sprite re_sprite_eyes;

You want to do:

sf::Sprite *re_sprite_hair, *re_sprite_body, *re_sprite_eyes;

You need to put one star for each variable. In such cases I prefer to keep the star on the variable's side, rather than the type, to make exactly this situation clear.

  • 1
    That's wierd... not the way I would have done it, but thanks! – user569322 Nov 29 '12 at 3:21
  • See John Bode's answer and mine for explanations. – Jive Dadson Nov 29 '12 at 4:21
  • 1
    Good explanation, but I prefer the multi line format. It's easier to read, if a bit long winded. – gornvix May 20 '19 at 17:48

In both C and C++, the * binds to the declarator, not the type specifier. In both languages, declarations are based on the types of expressions, not objects.

For example, suppose you have a pointer to an int named p, and you want to access the int value that p points to; you do so by dereferencing the pointer with the unary * operator, like so:

x = *p;

The type of the expression *p is int; thus, the declaration of p is

int *p;

This is true no matter how many pointers you declare within the same declaration statement; if q and r also need to be declared as pointers, then they also need to have the unary * as part of the declarator:

int *p, *q, *r;

because the expressions *q and *r have type int. It's an accident of C and C++ syntax that you can write T *p, T* p, or T * p; all of those declarations will be interpreted as T (*p).

This is why I'm not fond of the C++ style of declaring pointer and reference types as

T* p;
T& r;

because it implies an incorrect view of how C and C++ declaration syntax works, leading to the exact kind of confusion that you just experienced. However, I've written enough C++ to realize that there are times when that style does make the intent of the code clearer, especially when defining container types.

But it's still wrong.

  • Is is wrong for "T& r;"? One cannot write T t = &r; I write "T *p;" and "T& r;" – Jive Dadson Nov 29 '12 at 4:18
  • 1
    The use of & to indicate a reference is a C++ construct that does not sit well with the original C declarations. Back in the day, I had reservations about the way references entered into C++, partly because of that. The address-of operator is overloaded in a confusing way - not as badly as << and >> tough. :-) – Jive Dadson Nov 29 '12 at 4:26
  • 1
    @JiveDadson: As far as the syntax is concerned, T& r is "wrong" (it's interpreted as T (&r), so multiple declarations would have to be written T &r, &s, &q). I understand the point you're making (&x has type T *, not T), and yes, overloading & this way does cause some heartburn. – John Bode Nov 29 '12 at 4:52
  • Except in this one specific case (which you shouldn't be doing anyway) (and, okay, some archanely-written complex types, if you're so inclined) it couldn't be of any less consequence, so the C++ style is far superior overall. It's not "wrong". Right-aligning your symbols just to pander to an antique oddity of the language's internals is one of the biggest abstraction leaks. – Lightness Races BY-SA 3.0 Sep 5 '18 at 17:38

In C++11 you have a nice little workaround, which might be better than shifting spaces back and forth:

template<typename T> using type=T;
template<typename T> using func=T*;

// I don't like this style, but type<int*> i, j; works ok
type<int*> i = new int{3},
           j = new int{4};

// But this one, imho, is much more readable than int(*f)(int, int) = ...
func<int(int, int)> f = [](int x, int y){return x + y;},
                    g = [](int x, int y){return x - y;};

Another thing that may call your attention is the line:

int * p1, * p2;

This declares the two pointers used in the previous example. But notice that there is an asterisk (*) for each pointer, in order for both to have type int* (pointer to int). This is required due to the precedence rules. Note that if, instead, the code was:

int * p1, p2;

p1 would indeed be of type int*, but p2 would be of type int. Spaces do not matter at all for this purpose. But anyway, simply remembering to put one asterisk per pointer is enough for most pointer users interested in declaring multiple pointers per statement. Or even better: use a different statemet for each variable.

From http://www.cplusplus.com/doc/tutorial/pointers/


The asterisk binds to the pointer-variable name. The way to remember this is to notice that in C/C++, declarations mimic usage.

The pointers might be used like this:

sf::Sprite *re_sprite_body;
// ...
sf::Sprite sprite_bod = *re_sprite_body;


char *foo[3];
// ...
char fooch = *foo[1];

In both cases, there is an underlying type-specifier, and the operator or operators required to "get to" an object of that type in an expression.

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