Okay, I've been inspired to do some head punching. Seems like overloading
operator& leads to not a small amount of pain.
What legitimate cases exist for overloading it?
(Can't say I've ever done that....)
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I seem to remember something like a smart pointer class which overrode
operator& because it wanted to return the address of the contained pointer rather than the address of the smart pointer object. Can't remember where I saw it or whether it seemed like a good idea at the time.
Aha, remembered: Microsoft's CComPtr.
Edit: To generalize, it might make sense under the following conditions:
Returning anything other than a legitimate pointer would violate the principle of least astonishment.
& makes your object behave like a reference (in that respect).
I'm pretty sure that it's a fool's errand to attempt to provide alternatives to built-in references, in particular since references aren't objects at all in C++, and they don't have their own addresses. Instances of your user-defined type inevitably are objects, and do have addresses, even if you disable the normal way of obtaining that address. So it is never a perfect imitation.
But, people are very keen on user-defined alternatives to pointers, so I can sort of see how someone might want to attempt it. I'm not sure they'll avoid creating a type that (mis)behaves in ways that will make its users wish they hadn't bothered.
Four years later, another answer.
Another use I have seen is when you are piggybacking off of the C++ language, but defining your own semantics. Prime example: Boost.Spirit.
Boost.Spirit, in particular Qi for parsing, overloads operators on parsers to provide an EBNF-like syntax for specifying arbitrary parser objects. In particular, the unary
& operator is overloaded to provide the And-Predicate Parser.
And-Predicate Parser (&a)
Syntactic predicates assert a certain conditional syntax to be satisfied before evaluating another production. Similar to semantic predicates, eps, syntactic predicates do not consume any input. The and-predicate, &a, is a positive syntactic predicate that returns a zero length match only if its predicate matches.
Basic look-ahead example: make sure that the last character is a semicolon, but don't consume it, just peek at the next character:
test_phrase_parser("Hello ;", lit("Hello") >> &lit(';'), false);
So in short, the unary
& here has no relation to pointers at all; it has domain-specific semantics which apply to Qi parser objects.
I've done this to good effect in the context of a DSL that generates LLVM code. An example will illustrate. Say
y are values (i.e., objects of type
value). Then the expression
x+y emits an ADD instruction into some code stream. Quite sensibly, the expression
&x emits an instruction to take the address of