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It seems my compiler (GCC 4.7) does not issue an implicit type conversion if the resulting converted type would allow a function call due to a base class match, i.e. conversion result A is a AB.

class AB {};

class A: public AB
  A(float i) {}
  A() {}
  A(const A& rhs) {}
  A(A&& rhs) {}

AB operator*(const AB& lhs,const AB& rhs)
  // Return default constructed AB

void foo() {
  A a;
  auto tmp = 2.0 * a;   // This fails because no conversion rule was found.

Is this a feature of the C++ language? If so, in what situation would it be better to not match against the base class.

Please, don't answer that the poor compiler has so much to do, and it would be too much to match against base classes.

EDIT error: no match for ‘operator*’ in ‘2.0e+0 * a’ note: candidate is: note: AB operator*(const
AB&, const AB&) note:   no known conversion for argument 1
from ‘double’ to ‘const AB&’ error: unable to deduce
‘auto’ from ‘<expression error>’
share|improve this question
operator* is void? – Kiril Kirov Nov 5 '12 at 13:02
Yeah, its just an example to test the conversion facility – wpunkt Nov 5 '12 at 13:02
Which error do you get? – Nobody Nov 5 '12 at 13:04
You probably should either rewrite your expression with float: auto tmp = 2.0f * a;, or add a constructor for double into A class. – Stan Nov 5 '12 at 13:14
up vote 5 down vote accepted

Please, don't answer that the poor compiler has so much to do, and it would be too much to match against base classes.

No, but what I will tell you is that the poor compiler has so much to do, and it would be too much to match against all potential derived classes (or other conversions through third types)

The problem in your code is not the upcast from A to AB, which the compiler gladly does, but the fact that it cannot convert 2.0 to an AB. The set of allowed conversions is limited and yields a finite set of work. When you call the operator it finds a match that takes two AB objects and it does not know how to directly convert the double into AB. It is obvious to you that it could create an A temporary and then upcast from it, as it upcasted the second argument. It is not so obvious for the compiler that does not know how many potential types derive from A (consider other translation units compiled separately) or even unrelated types that can be constructed from a double and have conversion operators to AB

share|improve this answer
+1 You're right, I was wrong (as usual!) – juanchopanza Nov 5 '12 at 13:36
You are right. A to AB is not a conversion. So it's just a 1 part chain of conversion. But on the other hand the standard provides this ill-formed example. A bit confusing – wpunkt Nov 5 '12 at 13:40
@juanchopanza: Your answer was not wrong, it was only a nitpick: that is not a second user defined conversion, which does not mean that it is allowed either. And the example you provide is sound. I think the answer has value and should not be deleted. – David Rodríguez - dribeas Nov 5 '12 at 13:40
double->float->A->A&->AB&->const AB& – Pete Becker Nov 5 '12 at 13:42
Is there a passage that says that base classes do not take part in implicit type conversion checking? – wpunkt Nov 5 '12 at 13:42

The C++ standard provides this example of an ill-formed program with a sequence of conversions similar to those in your code. See §13.3.1:

class T {
class C : T {
T a = 1;  // ill-formed: T(C(1)) not tried.
share|improve this answer
that, and slicing – BЈовић Nov 5 '12 at 13:10
I think there are some zig-zag conversion examples out there that state that more than one user-defined conversion is allowed. Do you have the C++ standard passage for this? – wpunkt Nov 5 '12 at 13:12
Okay, looks like that's right then – wpunkt Nov 5 '12 at 13:14
The conversion A to AB is not a user defined conversion. – David Rodríguez - dribeas Nov 5 '12 at 13:24

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