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It is reasonable that sizeof and typeid cannot be overloaded, but I can't see the harm in overloading ?:, .* and .. Are there technical reasons for this?

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The harm is that operator overloading already makes it difficult to ascertain the meaning of a line of code extracted from a program; allowing overloading of . in particular would be a travesty. Conversely, what would be the benefit of allowing this? – Lightness Races in Orbit Mar 15 '11 at 17:58
Please forgive my ignorance but is .* really an operator or is it just a typo ? – ereOn Mar 15 '11 at 18:01
@Tomalak: You're right that there is a trade-off between readability and customizability. I'm looking for a reason that . can't be overloaded while -> can and ! can -- it seems very arbitrary. – Tim Mar 15 '11 at 18:01
@ereOn: That's the pointer-to-member dereference operator (direct). There's also an indirect version, ->*. – Ben Voigt Mar 15 '11 at 18:02
i want range operator :. and a pony. – Anycorn Mar 15 '11 at 18:02
up vote 16 down vote accepted

To quote Bjarne Stroustrup:

There is no fundamental reason to disallow overloading of ?:. I just didn't see the need to introduce the special case of overloading a ternary operator. Note that a function overloading expr1?expr2:expr3 would not be able to guarantee that only one of expr2 and expr3 was executed.


Operator . (dot) could in principle be overloaded using the same technique as used for ->. However, doing so can lead to questions about whether an operation is meant for the object overloading . or an object referred to by . ... This problem can be solved in several ways. At the time of standardization, it was not obvious which way would be best.


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Nice to see why straight from Mr Stroustrup! – Daniel Williams Mar 15 '11 at 18:13
The second quote basically says that if you have a.b, and the type of a has overloaded operator., it would be hard to determine whether b is to be applied on the instance a or on the result of type::operator.(a) (I am using the function syntax instead of a member function syntax as that could be confusing, what does a.operator. mean?) – David Rodríguez - dribeas Mar 15 '11 at 18:25
@Tim: no, we don't have the same problem with a+b. a+b must mean either operator+(a,b) or a.operator+(b), whichever exists, because there is no built-in meaning of + for arbitrary objects. Look at the example in bta's link to see the issue Stroustrup is talking about. It doesn't arise with operator+ overloads, or even with operator-> overloads (in which you follow the indirection to the end, then look for members). But according to Stroustrup he thought of several sensible resolutions for operator. overloads and could not choose between them. – Steve Jessop Mar 15 '11 at 18:40

If you overload ., how would you access class members? What would be the meaning of obj.data?

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but still ->can, so then again what would be the meaning of obj->data? – Tommy Andersen Mar 15 '11 at 18:03
@TommyA: Exactly. If you overload both (. and ->), then you cannot really access the class members. Since one is already allowed, then disallowing the other makes sense, and avoids lots of problem! – Nawaz Mar 15 '11 at 18:05
@TommyA: It allows a smart pointer object to feel like a real (raw) pointer. Please note that -> is a VERY special case. It's a binary operator, but only the left-hand side is used during overloading. It chains. And after evaluation, name resolution takes place on the right-hand-side. All of which are unique behaviors. – Ben Voigt Mar 15 '11 at 18:06
. is more basic than ->. obj->data is defined as (*obj).data, so overloading it is basically equivalent to overloading the dereferencing operator. – filmor Mar 15 '11 at 18:08
@TommyA: There is a subtle, but significant difference. When obj is T *, then the meaning is the same as (*obj).data and you cannot overload the -> operator. The interesting case is when obj is T - in that case you are "overloading" -> which has no default implementation. – Suma Mar 15 '11 at 18:08

What would the syntax be?

In fact, there are good reasons for not overloading any operator which doesn't evaluate all of its operands: you shouldn't overload && or || either (except in special cases). You can't simulate this with an overloaded operator. Consider something like: p != NULL ? defaultValue : p->getValue() where the type of defaultValue or p->getValue() causes overload resolution to pick up your overload. It's a common idiom, but it can't be made to work if you overloaded ?:.

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I agree, but && and || can be overloaded, so why not ?:? – Tim Mar 15 '11 at 18:17
The original reason was simply syntax, I think. But having realized that overloading && and || was a mistake, no one was motivated to find the syntax. – James Kanze Mar 15 '11 at 19:06

Here's some reading material C++ FAQ Lite :)

In general there would be no benefit to overloading the operators above. What additional semantics would you be trying to implement?

The reason for overloading operators is to provide intuitive syntax to the user of your class. For example, it makes sense to overload + and += for strings. It's obvious to another developer what that means.

It's really not obvious what you would overload ?: for ... That said there are no technical reasons I am aware of that prevented these operators from being overloaded.

Overloading the -> operator allows for reference counted pointers to be created such as boost::shared_ptr. The concept of 'negating' an object might have different meanings in different contexts, so it's reasonable to occasionally overload this operator.

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It would make sense to overload ?: to shorten e.g. player.is_dead() ? ... : or money.value == 0 ? ... : . – Tim Mar 15 '11 at 18:06
@Tim: You can already do that, using the safe bool idiom. – Ben Voigt Mar 15 '11 at 18:07
I don't understand your example ... – Nathanael Mar 15 '11 at 18:08
@Ben: Thanks, I had not heard of it. – Tim Mar 15 '11 at 18:11
@Tim Nordenfur- That would lead to unexpected behavior. The function implementing the overloaded ?: operator would not be able to guarantee that only the 'true' or 'false' branch is executed. See Bjarne's quote in my answer. – bta Mar 15 '11 at 18:11

Defining "operator bool" is enough for ?: to work. For operator . think of this: SomeClass."SomeString!!"

These overloadings prohibit compiler's lexer from parsing the file correctly.

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Unfortunately, due to deficiencies in the standard, it is almost never a good idea to overload operator bool. C++0x fixes this with the ability to tag conversion operators as explicit, and then fiddling the verbiage of the standard to say that certain cases in which you might think the conversion to bool is implied, it's actually explicit. If you want to achieve the effect of overloading operator bool pre-C++0x, you should google the 'safe bool idiom'. – Omnifarious Mar 15 '11 at 18:15

The reason you can overload most operators is to be able to simulate built in types. Since none of the built in types can use the . operator, it wouldn't serve any purpose. operator* and operator-> are there so you can make your own pointer classes. All the math and boolean operators are there to be able to make your own numeric classes.

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But you can overload && and ,. – Tim Mar 15 '11 at 18:35

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