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Let's say I have a C++ class with two functions like

class MyClass
    bool Foo(int val);
    bool Foo(string val);

Is it possible to use the ternary operator like this

MyClassInstance->Foo(booleanValue?24:"a string");

and have a different function of MyClass invoked depending on the value of booleanValue?

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this is interesting... – mauris Oct 24 '12 at 13:22
Have you tried compiling and running it to see what happens? – Dan F Oct 24 '12 at 13:22
This doesn't even compile. The compiler will complain about the different types of the ternary operator. – Olaf Dietsche Oct 24 '12 at 13:26
I do not understand the upvotes here. Sure, it's a fun experiment, but the question could have easily been avoided if the OP only tried it. The OP has not provided any research information at all. – Default Oct 24 '12 at 13:27
@Default I should have phrased my question differently: I have that code that does not compile, is there a way to get it compiling or is this notation forbidden? I will be more careful next time... – Yannick Blondeau Oct 24 '12 at 13:55
up vote 21 down vote accepted

Not with the ternary operator. The type of a ternary expression is the common type of its second and third operands; if they have no common type you can't use it. So just use an ordinary if statement:

if (booleanValue)
    MyClassInstance->Foo("a string");
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The type of a ternary conditional expression is the common type two which both operands are con­ver­tible. You can definitely not perform "dynamic overload resolution", as you seem to be suggesting.

Since there is no common type for int and char const *, the code won't even compile (as you sure­ly noticed when you tested this).

(You may be thrilled to know that the ternary conditional is used precisely because of those semantics in the implementation of the std::common_type trait class template, together with decltype.)

(If the condition is known statically, such as sizeof(int) != 7, then you can use template spe­cia­lization to write similar-looking code that does perform conditional overload resolution, but of course statically.)

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No. To perform overload resolution the compiler will ask "what is the type of booleanValue?24:"a string"?". That question cannot be answered.

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Cannot be answered at compile-time (not my down-vote BTW - just making a small suggestion to improve the answer) – Paul R Oct 24 '12 at 13:23
@Paul In C++ expressions only have types at compile-time. It does not make sense to talk about something else. – R. Martinho Fernandes Oct 24 '12 at 13:24
Yes, I know, the point is that it is conceivable that you could determine which function to call dynamically, i.e. at run-time, but for C++ you need to know the type at compile-time. – Paul R Oct 24 '12 at 13:26

No, this is not permitted.

Overloads are compile-time, so it cannot work in runtime that way.

It is not common in code you would want to do exactly that, however sometimes with iostream there is a desire to do something like:

os << ( condition ? var1 : var2 )

where var1 and var2 have different types. That also doesn't work.

You could do:

MyClassInstance->Foo( booleanValue ? boost::any(24) : boost::any("a string") );
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