if I have a function like that:

void doSomething(int& aVar)
// do something

and I have this:

int *aVar = new int;
*aVar = 10;


Why should I call *aVar? isn't aVar already an address?


No, a reference is not a pointer. References are guaranteed to not be null; you cannot say the same for a pointer. When you pass an int to a function that expects an int& the reference will be taken automatically.

P.S. Don't think of it as an address or a fancy pointer. It is a reference, or an alias to an existing object.

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    To be pedantic, I'd say "...alias to an existing value", not object. – GManNickG Oct 26 '10 at 23:10
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    An int is an object. It does not have class type (sometimes said "not an instance of a class"), but conventional terminology and standardese agrees: int variables and temporaries are objects. – Roger Pate Oct 26 '10 at 23:52
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    I don't see a clear definition in C++03, but §3.1p6 uses the term generally and refers to §3.9, which says (p1, which is a note) "Types describe objects (1.8), references (8.3.2), or functions (8.3.5)." Additionally, §3p4 says "A variable is introduced by the declaration of an object," which, although it doesn't cover temporaries, may be the clearest. – Roger Pate Oct 26 '10 at 23:58
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    @Scott: Just because it compiles and runs doesn't mean it works. When you dereference a null pointer, you get undefined behavior. – GManNickG Oct 27 '10 at 0:57
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    Yeah, welcome to the real world where there is no one to hold your hand at every turn ;) – Ed S. Oct 27 '10 at 1:03

wants a reference not a pointer. The way to set up that reference as a parameter is to pass in an Int. Which is why


works. If you want to use a pointer in the function say


references and pointers are not the same thing (although they have a lot in common)


The asterisk, besides multiplication has two meanings:

a) When declaring a variable: *x means "X is a pointer" b) When using a variable: *x (when x is of pointer type) means "take whatever is pointed by x" - the opposite of &x, which means "take the address of x".

The code:


just wants to dereference the pointer "aVar" (take the value of type int pointed by it) and pass this value of type int as a parameter to the function.

The variable "aVar" stores an address of some integer value, not the value itself, so you have to use the "*" operator to dereference it every time you want to access the integer, not the memory address itself.

References in C++ are quite counter-intuitive ("disguised pointers"), so if doSomething takes a reference to int, you have to call it as if you were passing an actual int value, not a pointer. Hence you need the dereference operator.


A pointer is pointing to a specific memory address and a pointer has it's own data (ie the memory address it's pointing to). When you pass aVar to the function without dereferencing (the * operator) the pointer you would be passing the memory location of the pointer, not the memory location the pointer is pointing to.

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