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As I read here: http://www.cplusplus.com/reference/stl/array/operator[]/

it appears that saying a[2] would return the memory address (a reference) of the second element of a.

So how is

a[2]=5

a valid assignment, as that would mean I change the memory address of a[2] to location 5 (that might be possible, but usually you want to change the value, not the address) . Unless the = operator knows how to deal with this situation.

I know that it doesn't change the memory address, so what's actually going on here?

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5  
References are not addresses. –  Pubby Nov 3 '12 at 11:52

2 Answers 2

up vote 3 down vote accepted

The difference between a reference and a pointer is that a reference is dereferenced automagically. Hence you don't need such things as *(a[2]) = 5.

The following code shows this:

int baseVar = 42;            // This
int &sameVar = baseVar;      //   and this are the same memory
                             //   with two different names.
int *pBaseVar = &baseVar;    // This is separate memory that happens
                             //   to point to the baseVar memory.

Changing either of sameVar or *pBaseVar will change baseVar itself. Changing pBasevar itself will not affect basevar, it will simply cause to former to point to a different location.

Under the covers (though this is, of course, implementation dependent, basevar is probably considered (by the compiler/code) to be the int at a specific address (let's say 0x12345678), sameVar is considered that, too.

pBaseVar is considered a pointer at (for example) 0x11112222 which happens to contain the value 0x12345678:

                      +------------+
pBaseVar (0x11112222) | 0x12345678 |--+
                      +------------+  |
   +----------------------------------+
   |
   V                  +----+
baseVar (0x12345678)  | 42 |
sameVar (same)        |    |
                      +----+
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So as I understand it, two references can be two different names for the same value, while a pointer is a reference to a memory address (in your case the same memory address) –  PatronBernard Nov 3 '12 at 12:01
    
@PatronBernard a pointer holds a value, which is a memory address. You can change this value, i.e. make it point to a different memory address. You cannot do that with a reference. It always refers to the same object. –  juanchopanza Nov 3 '12 at 12:04
1  
@PatronBernard: juanchopanza is confusing you with a syntactic purism. A pointer and reference are physically identical: within the CPU they're both just the memory address. But syntactically -- within the language -- a pointer's "value" is the memory address itself, and a reference's "value" is the dereferenced thing pointed at by the memory address. Either can be converted into the other, however, using & or *. –  Boann Nov 3 '12 at 13:04
    
@Boann A reference is semantically significantly different to a pointer to warrant my previous statement. You cannot re-bind a reference like you can a pointer. It is not only a syntactic matter. –  juanchopanza Nov 3 '12 at 14:40

A reference is not a memory address. Think of it as a different name for the same object:

int i = 42;
int& j = i; // j is another name for i

j = 55;

std::cout << i << "\n"; // i now has value 55

So a[2] can be seen as a different name for whatever object is stored at a certain location in the array. Hence, the assignemnt works as in the example above.

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But from the same site (the pointer article) it says: "The address that locates a variable within memory is what we call a reference to that variable." –  PatronBernard Nov 3 '12 at 11:56
    
    
Oh okay, well it's explained in a confusing way then because I've read that article at least 5 times in the past year. –  PatronBernard Nov 3 '12 at 12:04
    
@PatronBernard I agree, it is confusing. Also, "reference" sometimes means "C++ reference", others times it is more general, i.e. a pointer could be said to refer to something. –  juanchopanza Nov 3 '12 at 12:05
    
@juanchopanza - & is the reference operator, not the dereference operator. * is the dereference operator. –  David Hammen Nov 3 '12 at 12:12

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