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When do I use a dot, arrow, or double colon to refer to members of a class in C++?

I have created the class called Kwadrat and I have three int fields inside. The Code Blocks gives me advice that i can get into the field of the object by ::, . and ->. The arrow is the one that only works, but why? What's the difference between those three?

#include <iostream>

using namespace std;

class Kwadrat{
int val1, val2, val3;
    Kwadrat(int val1, int val2, int val3)
        this->val1 = val1;
        //this.val2 = val2;
        //this::val3 = val3;

int main()
    Kwadrat* kwadrat = new Kwadrat(1,2,3);
    return 0;
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marked as duplicate by Christian Rau, fredoverflow, sbi, rubenvb, Jerry Coffin Aug 10 '12 at 15:15

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

See also stackoverflow.com/questions/1238613/… –  Tadeusz Kopec Aug 10 '12 at 13:38
@reopen-voters: ordinarily i chastise the mindless close-voters, but now, this question really is a duplicate. any new insights can be added to the question that it duplicates. –  Cheers and hth. - Alf Aug 10 '12 at 16:25

9 Answers 9

up vote 49 down vote accepted

1.-> for accessing object member variables and methods via pointer to object

Foo *foo = new Foo();
foo->member_var = 10;

2.. for accessing object member variables and methods via object instance

Foo foo;
foo.member_var = 10;

3.:: for accessing static variables and methods of a class/struct or namespace. It can also be used to access variables and functions from another scope (actually class, struct, namespace are scopes in that case)

int some_val = Foo::static_var;
int max_int = std::numeric_limits<int>::max();
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What about references? –  ltjax Aug 10 '12 at 13:39
I know, I was just dropping a hint that you might want to add it to 2. –  ltjax Aug 10 '12 at 13:41
You can have a reference to any of them. A reference always keep the same type. It's actually a different subject. –  Alex Belanger Aug 10 '12 at 13:43
The list is not comprehensive, nor 100% correct. The scope operator can be used in more situations to qualify an entity, even when they are not static: void derived::f() { base::f(); } even combined with any of the other two: obj.base::f(), and the access operator can be used to access statics: struct test { static const int i = 1; }; test t; int j = t.i;... –  David Rodríguez - dribeas Aug 10 '12 at 14:12
@Andrew: Our particular preferences are unrelated to the operators. There are many things I don't like in the language, but they are still there... –  David Rodríguez - dribeas Aug 10 '12 at 14:26

In C++ you can access fields or methods, using different operators, depending on it's type:

  • ClassName::FieldName : class public static field and methods
  • ClassInstance.FieldName : accessing a public field (or method) through class reference
  • ClassPointer->FieldName : accessing a public field (or method) dereferencing a class pointer

Note that :: should be used with a class name rather than a class instance, since static fields or methods are common to all instances of a class.

class AClass{
static int static_field;
int instance_field;

static void static_method();
void method();

then you access this way:

AClass instance;
AClass *pointer = new AClass();

instance.instance_field; //access instance_field through a reference to AClass

pointer->instance_field; //access instance_field through a pointer to AClass

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But I canąt get access through AClass::static_field = 0; –  Yoda Aug 10 '12 at 15:16

Put very simple :: is the scoping operator, . is the access operator (I forget what the actual name is?), and -> is the dereference arrow.

:: - Scopes a function. That is, it lets the compiler know what class the function lives in and, thus, how to call it. If you are using this operator to call a function, the function is a static function.

. - This allows access to a member function on an already created object. For instance, Foo x; x.bar() calls the method bar() on instantiated object x which has type Foo. You can also use this to access public class variables.

-> - Essentially the same thing as . except this works on pointer types. In essence it dereferences the pointer, than calls .. Using this is equivalent to (*ptr).method()

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The three operators have related but different meanings, despite the misleading note from the IDE.

The :: operator is known as the scope resolution operator, and it is used to get from a namespace or class to one of its members.

The . and -> operators are for accessing an object instance's members, and only comes into play after creating an object instance. You use . if you have an actual object (or a reference to the object, declared with & in the declared type), and you use -> if you have a pointer to an object (declared with * in the declared type).

The this object is always a pointer to the current instance, hence why the -> operator is the only one that works.


// In a header file
namespace Namespace {
    class Class {
            int x;
            Class() : x(4) {}
            void incrementX();

// In an implementation file
namespace Namespace {
    void Class::incrementX() {    // Using scope resolution to get to the class member when we aren't using an instance
        ++(this->x);              // this is a pointer, so using ->. Equivalent to ++((*this).x)

// In a separate file lies your main method
int main() {
    Namespace::Class myInstance;   // instantiates an instance. Note the scope resolution
    Namespace::Class *myPointer = new Namespace::Class;
    myInstance.incrementX();       // Calling a function on an object instance.
    myPointer->incrementX();       // Calling a function on an object pointer.
    (*myPointer).incrementX();     // Calling a function on an object pointer by dereferencing first

    return 0;
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You have a pointer to an object. Therefore, you need to access a field of an object that's pointed to by the pointer. To dereference the pointer you use *, and to access a field, you use ., so you can use:

cout << (*kwadrat).val1;

Note that the parentheses are necessary. This operation is common enough that long ago (when C was young) they decided to create a "shorthand" method of doing it:

cout << kwadrat->val1;

These are defined to be identical. As you can see, the -> basically just combines a * and a . into a single operation. If you were dealing directly with an object or a reference to an object, you'd be able to use the . without dereferencing a pointer first:

Kwadrat kwadrat2(2,3,4);

cout << kwadrat2.val1;

The :: is the scope resolution operator. It is used when you only need to qualify the name, but you're not dealing with an individual object at all. This would be primarily to access a static data member:

struct something { 
    static int x; // this only declares `something::x`. Often found in a header

int something::x;  // this defines `something::x`. Usually in .cpp/.cc/.C file.

In this case, since x is static, it's not associated with any particular instance of something. In fact, it will exist even if no instance of that type of object has been created. In this case, we can access it with the scope resolution operator:

something::x = 10;

std::cout << something::x;

Note, however, that it's also permitted to access a static member as if it was a member of a particular object:

something s;

s.x = 1;

At least if memory serves, early in the history of C++ this wasn't allowed, but the meaning is unambiguous, so they decided to allow it.

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You helped me a lot but i don't understand why this does not work class Something{ public: static int i; }; Something::i = 0; cout<<Something::i<<endl; –  Yoda Aug 10 '12 at 14:03
undefined reference to ::i –  Yoda Aug 10 '12 at 14:05
@RobertKilar: That declares but does not define Something::i;, so you need a separate definition of it, like int Something::i;, as I show in the code sample in the answer. Otherwise, the code will compile but not link, because Something::i will be an "unresolved external/undefined reference". –  Jerry Coffin Aug 10 '12 at 14:06

The '::' is for static members.

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-> is for pointers to a class instance

. is for class instances

:: is for classnames - for example when using a static member

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Others have answered the different syntaxes, but please note, when you are doing your couts, you are only using ->:

int main()
    Kwadrat* kwadrat = new Kwadrat(1,2,3);
    return 0;
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besides standard use for -> (as explained by others) you can specify you own operator->:

class CClass {
    CClass* operator->() {
        return this;
    void func(){}


this will work as follows:

CClass c;

CClass* pc=new CClass();
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