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I am quite new to using C++. I have handled Java and ActionScript before, but now I want to learn this powerful language. Since C++ grants the programmer the ability to explicitly use pointers, I am quite confused over the use of the arrow member operator. Here is a sample code I tried writing.


   #include <iostream>
   #include "Arrow.h"
   using namespace std;

   int main()
        Arrow object;
        Arrow *pter = &object;

        object.printCrap(); //Using Dot Access
        pter->printCrap(); //Using Arrow Member Operator
        return 0;


   #include <iostream>
   #include "Arrow.h"
   using namespace std;



   void Arrow::printCrap(){
       cout << "Steak!" << endl;

In the above code, all it does is to print steak, using both methods (Dot and Arrow).

In short, in writing a real practical application using C++, when do I use the arrow notation? I’m used to using the dot notation due to my previous programming experience, but the arrow is completely new to me.

share|improve this question
The arrow is just the pointer's version of the dot. Sometimes you'll need pointers, so that's when you use it. Most of the time, a smart pointer would better suit you than a raw one, though. – chris Oct 23 '12 at 3:55
This provides some additional insight.… – JDischler Oct 23 '12 at 3:59
From your question it seems clear that you know the answer already: Use the arrow when dealing with pointers to objects, rather than objects or references to objects. Perhaps the real questions is: When to use a pointer? There are questions about that already, e.g. and…. – jogojapan Oct 23 '12 at 4:02
up vote 2 down vote accepted

Good Question,

Dot(.) this operator is used for accessing the member function or sometime the data member of a class or structure using instance variable of that class/Structure.

object.dataMember; //not a standard for class.

arrow(->) this operator is used for accessing the member function or sometime the data member of a class or structure but using pointer of that class/Structure.

ptr->datamember; //not a standard for class.
share|improve this answer
Also worth noting: if p is a pointer that points to object o, then p->blah is exactly equivalent to (*p).blah, which is eqivalent to o.blah. – Robᵩ Oct 23 '12 at 4:35
@Robᵩ: unless -> is overloaded – newacct Oct 23 '12 at 18:33
@newacct - correct me if I'm wrong, but -> cannot be overloaded for a pointer, only for a class. – Robᵩ Oct 23 '12 at 18:36
@Robᵩ please check with this – YS. Oct 26 '12 at 5:49

In C, a->b is precisely equivalent to (*a).b. The "arrow" notation was introduced as a convenience; accessing a member of a struct via a pointer was fairly common and the arrow notation is easier to write/type, and generally considered more readable as well.

C++ adds another wrinkle as well though: operator-> can be overloaded for a struct/class. Although fairly unusual otherwise, doing so is common (nearly required) for smart pointer classes.

That's not really unusual in itself: C++ allows the vast majority of operators to be overloaded (although some almost never should be, such as operator&&, operator|| and operator,).

What is unusual is how an overloaded operator-> is interpreted. First, although a->b looks like -> is a binary operator, when you overload it in C++, it's treated as a unary operator, so the correct signature is T::operator(), not T::operator(U) or something on that order.

The result is interpreted somewhat unusually as well. Assuming foo is an object of some type that overloads operator->, foo->bar is interpreted as meaning (f.operator->())->bar. That, in turn, restricts the return type of an overloaded operator->. Specifically, it must return either an instance of another class that also overloads operator-> (or a reference to such an object) or else it must return a pointer.

In the former case, a simple-looking foo->bar could actually mean "chasing" through an entire (arbitrarily long) chain of instances of objects, each of which overloads operator->, until one is finally reached that can refer to a member named bar. For an (admittedly extreme) example, consider this:

#include <iostream>

class int_proxy {
    int val;
    int_proxy(): val(0) {}
    int_proxy &operator=(int n) { 
        std::cout<<"int_proxy::operator= called\n";
        return *this; 

struct fubar {
    int_proxy bar;
} instance;

struct h {
    fubar *operator->() {
        std::cout<<"used h::operator->\n";
        return &instance;

struct g {
    h operator->() {
        std::cout<<"used g::operator->\n";
        return h();   

struct f {
    g operator->() { 
        std::cout<<"Used f::operator->\n";
        return g();

int main() {
    f foo;


Even though foo->bar=1; looks like a simple assignment to a member via a pointer, this program actually produces the following output:

Used f::operator->
used g::operator->
used h::operator->
int_proxy::operator= called

Clearly, in this case foo->bar is not (even close to) equivalent to a simple (*foo).bar. As is obvious from the output, the compiler generates "hidden" code to walk through the whole series of overloaded -> operators in various classes to get from foo to (a pointer to) something that has a member named bar (which in this case is also a type that overloads operator=, so we can see output from the assignment as well).

share|improve this answer
Great addition here. Between your answer and YS's answer, nearly everyone should have what they need. Now if we could get search engines to return results for symbols like '->'... – jww Jan 15 '14 at 2:26
@noloader: You might want to take a look at SymbolHound. – Jerry Coffin Jan 15 '14 at 4:17

The -> operator is a way of calling a member function of the pointer that is being dereferenced. It can also be written as (*pter).printCap(). C++ is difficult to learn without a class or book so I recommend getting one, it'll be a great investement!

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