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What are the differences between pointer variable and reference variable in C++?
What does a function prototype mean with an ampersand in it?

In my understanding,

void bar(int &x) { ... }

Seem to mean pass x by reference. But in C++, there are pointers etc already. So what difference is there to

void bar(int *x) { ... }
// then call by

Apart from the fact that it's longer... I also noticed if I use the 2nd method, I need to use -> as opposed to . if I pass in a struct... why?

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marked as duplicate by jogojapan, Yochai Timmer, halex, Jesse Good, Luchian Grigore Oct 19 '12 at 9:39

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.

Lots of dupes. It is a reference, yes. –  Luchian Grigore Oct 19 '12 at 9:33
i seems you may have to read a bit about C++ , googling just about "c++ references" will lead you to a lot of excellent documentation and explanation of the concept. –  dweeves Oct 19 '12 at 9:38

2 Answers 2

up vote 2 down vote accepted

The reason Stroustrup gives for introducing references to C++ is operator overloading.


In your example function bar, it is no big deal whether the user has to call it as bar(&x) (because it takes a pointer), or can call it with bar(x) (because it takes a reference). At least, C programmers think it isn't.

However, when operator overloading was added to C++, Stroustrup considered that using overloaded operators with pointers is very inelegant ("ugly" in his words).

References have some advantages in functionality over pointers, such as the fact that a temporary object can be bound to a const reference, but you can't apply the & operator to it. So a pass-by-const-reference function sometimes saves the caller a line of code (to create a variable) compared with its pass-by-pointer-to-const equivalent.

For this reason, one possible convention is to accept a pointer when your function plans to store the address somewhere for future use after it returns, and a reference when it doesn't. It doesn't prevent all possible ways of creating a dangling pointer/reference, but it catches a big one. It does have unfortunate consequences when writing functional-style code, though, so it's not for everyone.

I also noticed if I use the 2nd method, I need to use -> as opposed to . if I pass in a struct... why?

It's just the syntax inherited from C. . to access a member of a struct, -> to access a member via a pointer-to-struct. In C you can only use -> with a pointer on the LHS, and you can never use . with a pointer on the LHS. So there's no strict need for different symbols, it just helps make code more readable to have reminders. For example, if the same symbol . was used for both then (*ptr).member would mean the same thing as ptr.member, which would probably be confusing.

In C++ the difference becomes useful to the language. You can overload operator-> for a class type, for example smart pointers do. But class types can have members accessed with .. So some_smart_ptr->get(); means "call the get() function on the referand of the smart pointer", whereas some_smart_ptr.get() means "call the get() function on the smart pointer".

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A reference is a basically pointer with a constant address, so it has the same effect as calling by address. It's mainly a difference of syntax: calling by reference is more convenient since from the call site it's as if you were calling by value (except you have to be careful with temporaries).

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