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I've been programming C, mainly in an embedded environment, for years now and have a perfectly good mental model of pointers - I don't have to explicitly think about how to use them, am 100% comfortable with pointer arithmetic, arrays of pointers, pointers-to-pointers etc.

I've written very little C++ and really don't have a good way of thinking about references. I've been advised in the past to "think of them as pointers that can't be NULL" but this question shows that that is far from the full story.

So for more experienced C++ programmers - how do you think of references? Do you think of them as a special sort of pointer, or as their own thing entirely? What's a good way for a C programmer to get their head round the concept?

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12 Answers 12

up vote 11 down vote accepted

I've get used to think about references as an alias for main object.

EDIT(Due to request in comments):

I used to think about reference as kind of aliasing is because it behaves in the exact same way as the original variable without any need to make an extra manipulation in order to affect the variable referenced.

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I was going to say different names for the same object. +1 for being faster ;-). –  fco.javier.sanz Jul 22 '09 at 10:48
    
Fine, but why use an "alias" when a pointer will work, what are the drawbacks of using references? Should they be used only for specific reasons, and if so why? Apologies but your answer is "information lite" –  Binary Worrier Jul 22 '09 at 10:57
    
Because you can't change the address that a reference points to. Also it acts just like a regular variable. –  the_drow Jul 22 '09 at 11:29
    
@BinaryWorrier: By using a reference you also remove the possibility that the reference "won't be set". –  Richard Corden Jul 22 '09 at 12:46
    
@Richard: Thanks, but personally I know what references are, and I know when/where they should be used. I was trying to get the poster to elucidate their thoughts beyond "references as an alias for main object", a pointer can also be seen "as an alias for main object". Personally I don't find this answer useful, and am surprised that the community at large thinks it's the best answer. Just goes to show . . . –  Binary Worrier Jul 22 '09 at 13:18

For me, when I see a pointer in code (as a local variable in a function or a member on a class), I have to think about

  1. Is the pointer null, or is it valid
  2. Who created the object it points to (is it me?, have I done it yet?)
  3. Who is responsible for deleting the object
  4. Does it always point to the same object

I don't have to think about any of that stuff if it's a reference, it's somebody else's problem (i.e. think of a reference as an SEP Field for a pointer)

P.S. Yes, it's probably still my problem, just not right now

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Nice way to put it. +1 :) –  jalf Jul 22 '09 at 11:20

I'm not all too fond of the "ever-valid" view, as references can become invalid, e.g.

int* p = new int(100);
int& ref = *p;

delete p; // oops - ref now references garbage

So, I think of references as non-rebindable (that is, you can't change the target of a reference once it's initialized) pointers with syntactic sugar to help me get rid of the "->" pointer syntax.

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3  
The common answer to this is that it takes invoking undefined behavior to invalidate a reference while a pointer can be invalidated just so. However, I see your point. In practice, this makes very little difference. –  sbi Jul 22 '09 at 10:52
    
I do agree. I tend just to use them as ever-valid handles: in a local scope, or as function arguments. –  xtofl Jul 22 '09 at 10:53
    
@sbi: is the above really undefined behavior? I can see that it's not very clever, but undefined? Thanks. –  Kim Gräsman Jul 22 '09 at 11:03
    
@Kim: 8.3.2/4 says "A reference shall be initialized to refer to a valid object or function." But I agree that this only seems to covers initialization. Maybe I'm wrong. (I'm probably the opposite of a language lawyer.) –  sbi Jul 22 '09 at 11:22
    
Thanks guys! I guess as soon as we attempt to use ref, it will be undefined behavior, though. Not sure if that's spec:ed, however. –  Kim Gräsman Jul 22 '09 at 12:24

In general you just don't think about references. You use references in every function unless you have a specific need for calling by value or pointer magic.

References are essentially pointers that always point to the same thing. A reference doesn't need to be dereferenced, and can instead be accessed as a normal variable. That's pretty much all that there is to it. You use pointers when you need to do pointer arithmetic or change what the pointer points to, and references for just about everything else.

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1  
Except for small types, where copying the address of the referred-to object is more expensive than copying the object. Small types is about to mean: everything smaller than 64 bits. –  xtofl Jul 22 '09 at 10:55
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Yes. I wouldn't advocate using references for primitive types in functions. But then again, that's not a case where you would usually use a pointer either, and if you are doing so, you should know what you are doing. –  Markus Koivisto Jul 22 '09 at 11:06
    
Actually, if one is to be pedantic there's some cases where passing types larger than 64 bits is important. For example a lot of todays specialized hardware have very wide registers ( 128 bit and above are not uncommon ). As an example, on game consoles you usually pass your vectors by value to ensure they stay in register and then use SIMD instructions to operate on these wide registers. –  Ylisar Jul 22 '09 at 14:33

References are pointer-consts with different syntax. ie. the reference T& is pretty much T * const as in, the pointer cannot be changed. The content of both is identical - a memory address of a T - and neither can be changed.

Then apart from that pretty much the only difference is the syntax: . for references and -> and * for pointer.

That's it really - references ARE pointers, just with different syntax (and they're const).

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How about "pointers that can't be NULL and can't be changed after initialisation". Also, they have no size by themselves (because they have no identity of themselves).

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They do have a size, "under the hood" they are just a pointer (with some restrictions placed on them), hence, they are 4 bytes in size. –  Grant Peters Jul 22 '09 at 10:55
    
Correction, they are the size of a pointer (too used to working on 32-bit systems :P) –  Grant Peters Jul 22 '09 at 10:56
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@Grant: not necessarily. For instance "int a = 1; int &b = a;" probably results in no storage being used on the stack for b. The code will just compile such that all uses of b access the same register or stack slot as uses of a. In this situation b is not "just a pointer under the hood", it's a pure alias. Of course the defined behaviour is the same however it's implemented. So it's fine to imagine that it's a pointer, but it might not actually be one. –  Steve Jessop Jul 22 '09 at 11:19
    
Can't be NULL? How about: int *p = NULL; int &ref = *p; int myInt = ref; // BOOM! –  Jim Buck Jul 25 '09 at 19:52
    
Rather than "can't be NULL" I probably should have said "can be assumed to be not NULL". While it's certainly possible to create a reference to NULL, this is not technically legal C++ and a function that is passed a reference argument can reasonably assume that it is not NULL. –  Greg Hewgill Jul 26 '09 at 1:56

I think of the reference as being the object it refers to. You access the object using . symantecs (as opposed to ->), re-enforcing this idea for me.

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I think your mental model of pointers, and then a list of all the edge cases you've encountered, is the best way.

Those who don't get pointers are going to fare far worse.

Incidentally, they can be NULL or any other non-accessible memory location (it just takes effort):

char* test = "aha";
char& ok = *test;
test = NULL;
char& bad = *test;
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It's even easier than that: char &bad = *(char *)NULL; –  Greg Hewgill Jul 22 '09 at 10:47
    
It's still not legal for a reference to be NULL, though. –  Martin B Jul 22 '09 at 10:50
    
"legal" as in badly formed, but if you're making an API that is at all sensitive to attack, or just robust, you can't assume that parameters passed by reference cannot be NULL - you really have check –  Will Jul 22 '09 at 10:52
    
haha, beat me to it. 2 other ways of setting of getting the NULL reference are: char& test = (char)0; and union { char *ptr; char &ref; } value; value.ptr = NULL; It's fun breaking code! –  Grant Peters Jul 22 '09 at 10:53
    
I don't know whether to mark this up or down :o –  Sam Harwell Jul 22 '09 at 10:53

One way to think about them is as importing another name for an object from a possibly different scope.

For instance : Obj o; Obj& r = o; There is really little difference between semantics of o and r.

The major one seems that the compiler watches the scope of o for calling the destructor.

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I think of it as a pointer container.

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If you use linux, you can think of references as hard links and pointers as symbolic links (symlinks). Hard link is just another name for a file. The file gets "deleted" when all hard links to this file are removed.

Same about references. Just substitue "hard link" with "reference" and "file" with "value" (or probably "memory location"?).

A variable gets destroyed when all references are gone out of scope.

You can't create a hard link to a nonexistent file. Similary, it's not possible to create a reference to nothing.

However you can create a symlink to a nonexistent file. Much like an uninitialized pointer. Actually uninitialized pointers do point to some random locations (correct me if I'm wrong). But what I mean is that you are not supposed to use them :)

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From a syntactic POV, a reference is an alias for an existing object. From a semantic POV, a reference behaves like a pointer with a few problems (invalidation, ownership etc.) removed and an object-like syntax added. From a practical POV, prefer references unless you have the need to say "no object". (Resource ownership isn't a reason to prefer pointers, as this should be done using smart pointers.)

Update: Here's one additional difference between references and pointers which I forgot about: A temporary object (an rvalue) bound to a const reference will have its life-time extended to the life of the reference:

const std::string& result = function_returning_a_string();

Here, the temporary returned by the function is bound to result and will not cease to exist at the end of the expression, but will exist until result dies. This is nice, because in the absence of rvalue references and overloading based on them (as in C++11), this allows you to get rid of one unnecessary copy in the above example.

This is a rule introduced especially for const references and there's no way to achieve this with pointers.

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