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Suppose that I have a class like that:

class Foo : boost::noncopyable
  Foo(int a, int b);

  const int something;
  const int something_else;
  const std::string another_field;
  // and that's that, no more methods nor fields

Now, is there any practical difference between accessing the objects of this class through a Foo&, as opposed to const Foo&, other than that these two are two distinct types?

There shouldn't be any difference for accessing its fields, as they're const, so they will be accessed to through a const T& anyway.

But is there any difference when it comes to the class as a whole? Something to do with templates, perhaps? Anything?

Now that templatetypedef has written a nice answer, which unfortunately is not helpful in this case, I think it'd be nice to underline that it's very much about what can you do when you already have a reference (note all these "accessing"), not about what you can bind to the reference.

So, you can assume that the ref is already there, bound to some object. Now it's all about what can be done with it.

share|improve this question
On a side note, if you have two Foos called a and b, the assignment a = b is illegal. Is that what you want? – fredoverflow Feb 14 '12 at 10:27
@FredOverflow: Yes, it's even made explicit: class Foo : boost::noncopyable. – Fanael Feb 14 '12 at 13:21

I'm not sure if this is what you're looking for, but consider this function:

void DoSomething(Foo& fooRef);

In this case, you cannot call

DoSomething(Foo()); // Error- can't bind a reference to a temporary

However, if we have this function:

void DoSomethingConst(const Foo& fooRef);

Then we can indeed call

DoSomethingConst(Foo()); // Okay - const reference can bind to a temporary

So there is a slightly difference in that a const reference can potentially bind to a temporary Foo when a non-const reference cannot. Consequently, you'd probably want functions taking in Foos to take in a const Foo& rather than a Foo& to make it possible to call the function with temporaries.

Hope this helps!

share|improve this answer
+1. Also aren't there some optimisations the compiler can do for const things? – Seth Carnegie Feb 13 '12 at 18:59
@SethCarnegie I thought about that, but since all members are const, can't the optimizations happen anyway? +1 from me too. – Luchian Grigore Feb 13 '12 at 19:02
Oh, although that's as obvious as right, it's more about what can be bound to the reference than about what can you do when accessing it. And I doubt I'll ever need to make a temporary of this type. So while I appreciate you answer, I can't honestly upvote it. – Fanael Feb 13 '12 at 19:03
@SethCarnegie: actually, const rarely helps with optimizations, compilers usually get much more accurate information from their own data flow analysis than from consts. – Fanael Feb 13 '12 at 19:04
@SethCarnegie Actually, most of the optimizations are only valid if the system can determine that the object itself is const; accessing through a const reference doesn't help (but declaring const members might). – James Kanze Feb 13 '12 at 19:13

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