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I have a templated class that performs an action on the class that is given as template argument. For some of my classes I want to 'group' the functionality in one class, to make it easier for the caller. In fact the code looks something like this (names were changed):

template<typename T>
class DoSomeProcessing
   process(T &t);

class ProcessingFrontEnd : public DoSomeProcessing<CustomerOrder>, public DoSomeProcessing<ProductionOrder>

The problem is that when I call ProcessingFrontEnd::process with a CustomerOrder as argument, that the compiler complains about it.

I tried to reproduce the problem in a smaller test application. This is the code:

#include <vector>

class X : public std::vector<char>
        , public std::vector<void *>

int main(void)
X x;
return 0;

And indeed, if this is compiled, Microsoft's VS2010 compiler gives this error:

test.cpp(11) : error C2385: ambiguous access of 'push_back'
        could be the 'push_back' in base 'std::vector<char,std::allocator<char> >'
        or could be the 'push_back' in base 'std::vector<void *,std::allocator<void *> >'
test.cpp(11) : error C3861: 'push_back': identifier not found

I tested this test application with different types (char+void*, double+void*) and different arguments in the call ('c', 3.14), but the error message is always the same.

I tested this with VS2005 and VS2010 but I always get the same error.

Why can't the compiler determine the correct function to call? What makes this confusing for the compiler? Or is it just a bug in the Microsoft compiler?

EDIT: If I explicitly add 2 push_back methods to my class, like this:

class X : public std::vector<char>
        , public std::vector<void *>
   void push_back(char c) {}
   void push_back(void *p) {}

The compiler doesn't complain anymore. So with these methods he can clearly distinguish between a character and a void-pointer. Why can't he do this if the two push_back methods are inherited from the parent?

share|improve this question
Unless you know what you do, inherting from std containers is a bad idea. – Stephane Rolland Aug 24 '10 at 11:11
@Stephane, I know, but this is just to illustrate the problem in a simpler way. In reality, I inherit from my own templated class, not from the std containers. – Patrick Aug 24 '10 at 11:16
Could you show the line which the compiler complains about? Are CustomerOrder and ProductionOrder unrelated classes? (Your test application is not a good match, as Stephane points out, standard containers are full of interesting tricks which ordinary classes tend not to have or need, and besides, void pointers and integer types such as characters are a bit too close for comfortable overload resolution. Better to provide more info on the actual problem.) – Pontus Gagge Aug 24 '10 at 11:20
CustomerOrder and ProductionOrder are unrelated classes. The error message is the same in my real-life example and in the test example. It's the call that he complains about. – Patrick Aug 24 '10 at 11:33
up vote 3 down vote accepted

This is by design. The compiler is not trying to resolve overloaded functions because these are not overloaded functions. The standard is really clear on that (see 10.2.2). If the same name is found in two different bases, it's an ambiguity, even if they could be resolved correctly with the call (i.e. in your case). Same-named functions in different classes will typically have quite different purposes and hence the selection between them should not be made on the basis of their arguments. There are many good reasons not to allow that, but here's one.

Imagine your class C derives from A and B and these two base classes come from two different libraries. If the author of B adds a new function to the class, it may break the user's code by redirecting a call from A::foo() to B::foo() if the latter is a better match.

If you want the two functions to be treated in the same way that they would be if part of a single class, then the best way to do it is with using declarations in the derived class. Just add

using std::vector<char>::push_back;
using std::vector<void *>::push_back;

to the declaration of class X.

share|improve this answer
Yep, that's it. Apparently, this is to prevent user errors, rather than something the compiler cannot resolve. Adding the using clauses indeed solves the problem. Thanks. – Patrick Aug 24 '10 at 11:48
@Patrick It is just one of the many area of inconsistency in C++. The design of normal member function insisted that overloading would not work across scopes, – curiousguy Nov 1 '11 at 1:02
"Imagine your class C derives from A and B and these two base classes come from two different libraries." Now, imagine the same story with namespaces instead. Different, inconsistent rules. – curiousguy Nov 1 '11 at 1:03

I believe you are running afoul of the C++ overloading rules which prohibit overloading across classes. You'd get the same results if your template classes were two separate classes, each with its own process(CustomerOrder) and process(ProductionOrder) member.

The workaround is explicit using statements inside your derived class, pulling in each overload from each of the template base classes.

share|improve this answer

How is the compiler supposed to know which process you want to call? There's two options. Do you want both, one, or the other?

You need to override process in the derived class.

share|improve this answer
The compiler knows this from the template types. The first parent class in the example (std::vector<char>) has a method push_back(char), while the second parent class (std::vector<void*>) has a method push_back(void*). Why is this different from having the two push_back methods in my class itself? – Patrick Aug 24 '10 at 11:17
Looks similar to "name hiding"- but but basic.scope.hiding in the C++ standard doesn't apply to this case. Walking through basic.lookup might turn up an explicit or implicit rule - which might still not give you a rationale. – peterchen Aug 24 '10 at 11:35
The user obviously want the best matching function to be called. Just as any over overload resolution. – curiousguy Nov 1 '11 at 1:04

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