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I'm using TR1's std::function to implement a simple callback mechanism. If I don't want to get called back, I register nullptr as the callback handler. This compiles and works fine:

void Foo::MessageHandlingEnabled( bool enable ){
    if( enable )
        m_Bar.RegisterMessageHandler( std::bind(&Foo::BarMessageHandler, this, std::placeholders::_1) );
        m_Bar.RegisterMessageHandler( nullptr );

If I rewrite this using the ternary operator...

void Foo::MessageHandlingEnabled( bool enable ){
        m_Bar.RegisterMessageHandler( enable?
                                      std::bind(&Foo::BarMessageHandler, this, std::placeholders::_1) :
                                      nullptr );   


... VC++'s compiler says:

error C2446: ':' : no conversion from 'nullptr' to 'std::tr1::_Bind<_Result_type,_Ret,_BindN>' 1> with 1>
[ 1> _Result_type=void, 1> _Ret=void, 1>
_BindN=std::tr1::_Bind2,Foo *,std::tr1::_Ph<1>> 1> ] 1> No constructor could take the source type, or constructor overload resolution was ambiguous

Is this a limitation of the compiler, or am I doing something stupid? I know I might not gain any benefit, in this particular case, from using the ternary operator, but I'm just curious.

share|improve this question
up vote 7 down vote accepted

Both branches of the ternary operator must return values of the same type, or the type of one value must be convertible to the other.

5.16.3 ... if the second and third operand have different types, and either has (possibly cv-qualified) class type, an attempt is made to convert each of those operands to the type of the other... [details omitted] Using this process, it is determined whether the second operand can be converted to match the third operand, and whether the third operand can be converted to match the second operand. If both can be converted, or one can be converted but the conversion is ambiguous, the program is ill-formed. If exactly one conversion is possible, that conversion is applied to the chosen operand and the converted operand is used in place of the original operand for the remainder of this section.

This is why the compiler error says conversion from 'nullptr' to 'std::tr1::_Bind<_Result_type,_Ret,_BindN>' 1>...

nullptr has the type of std::nullptr_t and std::function<> has a constructor that accepts std::nullptr_t. std::tr1::_Bind can't be converted to std::nullptr_t or the other way around in the context of the ternary operator.

if/else on the other hand, doesn't return anything at all.

share|improve this answer
+1, but as always a reference to The Standard is appreciated – std''OrgnlDave Oct 11 '12 at 13:41
@std''OrgnlDave: grepping the standard at the moment... – Maxim Egorushkin Oct 11 '12 at 13:42
Since the if isn’t inside the argument list of the method (and can’t, syntactically) any mention of “return value” for the if block here is misleading. – Konrad Rudolph Oct 11 '12 at 13:46
What puzzles me is, if you can pass nullptr on the call to RegisterMessageHandler, which expects an std::function<void(std::string), why can't it be converted when using the ternary operator? – dario_ramos Oct 11 '12 at 13:50
@dario_ramos: I updated the answer. – Maxim Egorushkin Oct 11 '12 at 14:01

Here i suppose the registerHandler has polymorphic declaration.

My guess is ,when meeting the ternary operator ,the compiler will assume both part of the : are same type.

Thus resolving the polymorphism of registerHandler to match the one that takes a bind result compatible argument.

With the if, each registerHandler call is resolved separately, so choosing correcly the good registerHandler depending on each passed parameter type.

share|improve this answer
Yes, it is a virtual method. But based on the other answer, the same would happen with a non-virtual method. I'd have to test it but I'm pretty sure that the register function being virtual or not is irrelevant here. – dario_ramos Oct 11 '12 at 13:47
The case here is not virtuality but polymorphism . ie : same method name,different parameter types. – dweeves Oct 11 '12 at 13:55
I usually call that overloading, but it's fine, some people consider it a form of polymorphism. There is no overloading either, in my case. – dario_ramos Oct 11 '12 at 13:56
my guess is: the class both declares registerHandler(someType a) and registerHandler(someOtherType b) with a not convertible to b. when using a ternary with SomeType on the left of : and someOtherType on right of : , the only resolved symbol is registerHandler(someType) for the call – dweeves Oct 11 '12 at 13:59

Maxim Yegorushkin's answer is right. Here's a simple workaround with example code that better illustrates your problem:

struct Base{};
struct DerivedA:public Base{};
struct DerivedB:public Base{};

DerivedA a;
DerivedB b;

   bool chooseA = true;
   Base& base = chooseA?a:b; // Error: compiler tries to convert b to DerivedA (the type of a).

Base& choose(bool x)
   if(x) return a;
   return b;

   bool chooseA = true;
   Base& base = choose(chooseA); //Helper function converts a or b to parent class Base.
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