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Could someone explain to me what the "->" means in C++?

Examples if you can, they help me understand better. Thanks.

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    +1 I don't know why people are downvoting you. It's a basic question, but so what? That doesn't make it bad. Commented Feb 12, 2012 at 2:17
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    +1: It's a simple question, but it's very hard to search the web for such characters. You'd probably benefit from a good book, though.
    – johnsyweb
    Commented Feb 12, 2012 at 2:17
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    True, it is a basic question. But it's also a question that would easily be answered by looking at any book on C++ or C. Google is not the only research that people should do. Commented Feb 12, 2012 at 2:19

3 Answers 3

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It's a shortcut for dereference followed by property access (or method invocation).

In code, here are some examples of this equivalence:

Foo *foo;

// field access
foo->bar = 10;
(*foo).bar = 10;

// method invocation
foo->baz();
(*foo).baz();

This is especially convenient when you have a long sequence of these. For example, if you have a singly linked list data structure in which each element has a pointer to the next, the following are equivalent ways of finding the fifth element (but one looks much nicer):

linked_list *head, *fifth;
fifth = head->next->next->next->next;
fifth = (*(*(*(*head).next).next).next).next;
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  • It is much more convenient. Here's a code snippet from some real code, given a pointer to a resource descriptor (rd), it gets the friendly name of the server that hosts the resource: rd->resource->GetServer()->GetFriendlyName(). The GetServer function returns a pointer to the server that hosts the resource. resource is a member of the resource descriptor structure. Think how ugly that would be in (*). form. Commented Feb 12, 2012 at 2:22
  • as with almost all operators in C++ you should make the addendum that both * and -> can be overloaded so (*a).b and a->b although usually the same have no guarantee of being equivalent unless a is a pointer.
    – PeterT
    Commented Feb 12, 2012 at 2:25
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It's often called the "member access" operator. Basically, a->b is a nicer way to write (*a).b. You can think of a->b as "access the b member/function in the object a points to". You can read it aloud (or think it to yourself) as "a member access b".

In a random sample of structured C++ code I just checked (from several different projects written by different people), 10% of lines of code (not counting headers) contained at least one member access operator.

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    There is a conspicuous lack of mention of the term "pointer" in your answer. Yes, operator-> can be overloaded, but even then, that's only really done for objects that mimic pointers. Commented Feb 12, 2012 at 2:20
  • @NicolBolas You do usually (that is, almost always) use the member access object on something that is either literally a pointer or an instance of a class that acts like a pointer. I do say that it accesses the "object a points to". Commented Feb 12, 2012 at 2:24
  • Yes, you say that, but you then say you can read it as "a member access b". That's not possible if a is a naked pointer, since pointers don't actually have members. It's "a dereference, then member access b". And "dereference" doesn't make sense without talking about pointers. Commented Feb 12, 2012 at 2:43
  • @NicolBolas Pointers don't have members, but what pointers access do have members. Hence it's a "member access" operation. (That is, it allows you to access a member.) Commented Feb 12, 2012 at 2:52
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The -> operator is used with a pointer (or pointer-like object) on the LHS and a structure or class member on the RHS (lhs->rhs). It is generally equivalent to (*lhs).rhs, which is the other way of accessing a member. It is more convenient if you ignore the Law of Demeter and need to write lhs->mid->rhs (which is generally easier to read than (*(*lhs).mid).rhs).

You can overload the -> operator, and smart pointers often do. AFAIK You cannot overload the . operator.

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  • You are correct that . cannot be overloaded (along with .*, ::, and '?:). Commented Feb 12, 2012 at 2:29

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