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In C++, I'm trying to use implicit conversion with a conditional operator. Consider this example:

class MyFloat
        MyFloat(float val){m_val = val;}
        operator float(){return m_val;}
        float m_val;

int main(int argc, char **argv)
    MyFloat a = 0.5f;
    MyFloat b = 1.0f;                            
    float x = true ? a-0.5f : b;
    return 0;

It causes a compiler error:

error: operands to ?: have different types ‘MyFloat’ and ‘float’

I expect the conditional operator to implicitly convert b to the type of a-0.5, float. But this does not happen. How do I achieve this implicit cast?

Ideally, I want to avoid a static cast or an accessor method like float MyFloat::getValue().

share|improve this question
You started out well, with "implicit conversion", then lost it with "implicit cast". A cast is something you write in your source code to tell the compiler to do a conversion. There is no such thing as an implicit cast. – Pete Becker Feb 6 '13 at 21:46
I just tried to compile and run your code in MS Visual Studio 2012 Professional. 0 Errors, 0 Warnings, works good. – LihO Feb 6 '13 at 21:51
@LihO, it fails in GCC: – Mark Ransom Feb 6 '13 at 21:53
If you must define an implicit conversion, it can still be useful to define a member function that does exactly the same thing, for cases like this, passing through ..., etc. Adding a float MyFloat::getValue() const would not make your interface any worse than it already is: it's adding a way for someone to get a float by saying exactly what they're doing, when you already gave the ability to get a float without even meaning to. – aschepler Feb 6 '13 at 21:57
up vote 8 down vote accepted

The problem is that there are two conversions. The compiler can convert a-0.5 to MyFloat or it can convert b to float. As long as you have both conversions and neither is marked explicit you'll get this kind of ambiguity all the time.

share|improve this answer
Verified in GCC: – Mark Ransom Feb 6 '13 at 21:57
Thanks for the answer and correction about cast vs conversion. – ethan Feb 7 '13 at 1:21

Only some conversions are done for you. From

The first operand must be of integral or pointer type. The following rules apply to the second and third expressions:

  • If both expressions are of the same type, the result is of that type.
  • If both expressions are of arithmetic or enumeration types, the usual arithmetic - conversions (covered in Arithmetic Conversions) are performed to convert them to a common type.
  • If both expressions are of pointer types or if one is a pointer type and the other is a constant expression that evaluates to 0, pointer conversions are performed to convert them to a common type.
  • If both expressions are of reference types, reference conversions are performed to convert them to a common type.
  • If both expressions are of type void, the common type is type void.
  • If both expressions are of a given class type, the common type is that class type.
share|improve this answer
That explains why @LihO got it to compile with Visual Studio. But these rules don't match the language definition. – Pete Becker Feb 6 '13 at 21:58
I saw that too, but it's inconsistent with another reference:… – Mark Ransom Feb 6 '13 at 21:58

The ternary operator doesn't do any implicit casting if I remember correctly. You will need to either write




I'll dig through the C++ standards doc when I get home for more details.

share|improve this answer
The compiler converts the two arguments to their common type. – Pete Becker Feb 6 '13 at 21:55
Alrighty, well feel free to ignore this answer then. I'm also voting up your answer as it's probably the reason his code won't compile. – bstamour Feb 6 '13 at 21:57

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