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My C++ teacher thinks that the * operator in standard C++ is "already overloaded," because it can mean indirection or multiplication depending on the context. He got this from C++ Primer Plus, which states:

Actually, many C++ (and C) operators already are overloaded. For example, the * operator, when applied to an address, yields the value stored at that address. But applying * to two numbers yields the product of the values. C++ uses the number and type of operands to decide which action to take. (pg 502, 5th ed)

At least one other textbook says much the same. So far as I can tell, this is not true; unary * is a different operator from binary *, and the mechanism by which the compiler disambiguates them has nothing to do with operator overloading.

Who is right?

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You are right. In a sense, it is fair to say that builtin operators already act polymorhpically depending on their arguments. That is static polymorphism –  sehe Aug 23 '11 at 13:56
Note that in addition to there being two * operators (which is "overloading" in the English sense but not in the C++ sense), builtin binary * actually is also overloaded in the C++ sense, in that it applies to different types -- int, double etc. -- with different effects. The set of effective overloads for the purposes of operator overload resolution is defined in the standard, at 13.6/12. Likewise unary * is effectively overloaded for every pointer type (13.6/6) and function pointer type (/7). –  Steve Jessop Aug 23 '11 at 14:00

3 Answers 3

up vote 11 down vote accepted

Both are right as the question depends on context and the meaning of the word overloading.

"Overloading" can take a common meaning of "same symbol, different meaning" and allow all uses of "*" including indirection and multiplication, and any user-defined behavior.

"Overloading" can be used to apply to C++'s official operator overloading functionality, in which case indirection and multiplication are indeed different.

ADDENDUM: See Steve's comment below, on "operator overoading" versues "token overloading".

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So even the term "overloading" is overloaded. –  Oliver Charlesworth Aug 23 '11 at 13:59
To be precise, I think with the former meaning it's the * token which is overloaded, not the * operator. It's a very fine hair to split, though, I say it's the token just because the grammar of an expression using unary * is different from the grammar of an expression using binary *. You can imagine that they're both turned into operator*(...), with one argument for unary and two for binary, in which case it behaves like a single overloaded function named operator*. That just isn't quite how the standard happens to define arithmetic expressions. –  Steve Jessop Aug 23 '11 at 14:07
@Steve I totally agree and like that precision. I would take that answer over mine. :) –  Ray Toal Aug 23 '11 at 14:10

It's overloaded in the sense that the same character is used to mean different things in different places (e.g. pointer dereference, multiplication between ints, multiplication with other built-in types, etc.).

Generally, though, "operator overloading" refers to defining an operator (that has the same symbol as a built-in one) using custom code so that it does something interesting with a user defined type.

So... you're both right :-)

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I believe you are. The dereference op and the mult. op are different operators, even if written the same. same goes for +,-,++,--, and any other I may have forgotten.

I believe the book, in this paragraph, refers to the word "overloaded" as "used in more than 1 way", but not by the user. So you could also consider the book as being correct... also depends if you're referring to the overloading of the * operator or of the multiplication operator (for example).

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