What is the arrow operator (->) a synonym for?

7 Answers 7


The following two expressions are equivalent:



(subject to operator overloading, as Konrad mentions, but that's unusual).

  • 11
    Overloading issues are a lot less unusual than you think. Not long ago, STL implementors had no overloaded -> operator for some iterator types so you had to use *.. Many libraries define them inconsistently. Becomes really annoying when you work with templates and don't know the precise type. Commented Oct 21, 2008 at 10:15
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    you can also do a[0].b instead of (*a).b. But it wouldn't be as properly structured.
    – Sellorio
    Commented Jun 19, 2013 at 3:35
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    Boy, after many years of c# programming, going back to c++ is not only cognitively taxing, the c++ syntax is just ugly and yucky. I feel like taking a shower after using it. Programs written in c and c++ just encourage bad programming. Apple, pre-unix, struggled to make the language as pretty as Pascal.
    – ATL_DEV
    Commented Jul 9, 2018 at 19:54
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    @ATL_DEV I'd argue that a lot of the ugly stuff isn't considered idiomatic anymore, but unfortunately that doesn't mean you can afford to not be familiar with it as a practicing C++ programmer. Also the syntactically nice path is often not the semantically nice path, but that also has been getting better not worse. But then again I have C++ Stockholm Syndrome. Commented Aug 6, 2018 at 9:13
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    @TimSeguine If you ever want to see pretty code, then look at the documentation for inside the Macintosh. I think they invented CamelCase. Very descriptive variable names and elegantly formatted code. They managed to make their later C code almost as gorgeous as their earlier Pascal code.
    – ATL_DEV
    Commented Aug 7, 2018 at 1:25

a->b is generally a synonym for (*a).b. The parenthesises here are necessary because of the binding strength of the operators * and .: *a.b wouldn't work because . binds stronger and is executed first. This is thus equivalent to *(a.b).

Beware of overloading, though: Since both -> and * can be overloaded, their meaning can differ drastically.

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    By binding strength you mean operator precedence? if not what is the difference between the two?
    – vishless
    Commented Oct 10, 2018 at 2:45
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    @Vizkrig Yes, the two terms are used interchangeably (although “operator precedence” seems to be much more frequent, at least in recent years). Commented Oct 10, 2018 at 8:16

The C++-language defines the arrow operator (->) as a synonym for dereferencing a pointer and then use the .-operator on that address.

For example:

If you have a an object, anObject, and a pointer, aPointer:

SomeClass anObject = new SomeClass();
SomeClass *aPointer = &anObject;

To be able to use one of the objects methods you dereference the pointer and do a method call on that address:


Which could be written with the arrow operator:


The main reason of the existents of the arrow operator is that it shortens the typing of a very common task and it also kind of easy to forgot the parentheses around the dereferencing of the pointer. If you forgot the parentheses the .-operator will bind stronger then *-operator and make our example execute as:

*(aPointer.method()); // Not our intention!

Some of the other answer have also mention both that C++ operators can be overload and that it is not that common.

  • 8
    new SomeClass() returns a pointer (SomeClass *), not the SomeClass object. And you start with declaring anObject and aPointer but you're using p afterwards.
    – musiphil
    Commented Dec 7, 2012 at 17:52
  • overall this explanation is theoretically very apt, only the change of objects makes it a little convoluted. But the process is better described
    – Code Man
    Commented Oct 4, 2015 at 22:47

In C++0x, the operator gets a second meaning, indicating the return type of a function or lambda expression

auto f() -> int; // "->" means "returns ..."
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    Technically specking it is no longer an "operator" there, or is it?
    – Martin Ba
    Commented Nov 6, 2010 at 15:09
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    @Martin most people use the word "operator" for many things that aren't directly used for computing values. Like for "::" ("scope operator"). I don't know what the point of view of the standard is on this, exactly. In an abstract sense, one could view "->" as a functional operator mapping a sequence of types (parameters) to a return type, like the haskell operator, which is written "->" too. Commented Nov 6, 2010 at 15:15
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    @JohannesSchaub-litb: :: is actually an operator, like . or ->, and is called "scope resolution operator" in the standard.
    – musiphil
    Commented Dec 7, 2012 at 18:02

I mostly read it right-to-left and call "in"

foo->bar->baz = qux->croak


"baz in bar in foo becomes croak in qux."


-> is used when accessing data which you've got a pointer to.

For example, you could create a pointer ptr to variable of type int intVar like this:

int* prt = &intVar;

You could then use a function, such as foo, on it only by dereferencing that pointer - to call the function on the variable which the pointer points to, rather than on the numeric value of the memory location of that variable:


Without the parentheses here, the compiler would understand this as *(ptr.foo()) due to operator precedence which isn't what we want.

This is actually just the same as typing


As the ->dereferences that pointer, and so calls the function foo() on the variable which the pointer is pointing to for us.

Similarly, we can use -> to access or set a member of a class:

myClass* ptr = &myClassMember;
ptr->myClassVar = 2; 

You can use -> to define a function.

auto fun() -> int
return 100;

It's not a lambda. It's really a function. "->" indicates the return type of the function.

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