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I have a templated class for volume objects where operator+= is implemented as a member function and the operator+is implemented as non-member functions:

template <typename Class>
Class operator+(Class c1, const Class& c2) {
   return c1 += c2;

// Add a constant to every element in the volume
template <typename Class, typename dataType>
Class operator+(Class c, dataType constant) {
   return c += constant;

template <typename Class, typename dataType>
Class operator+(dataType constant, Class c) {
   return c += constant;

Then I try to compile the following:

volume + 1.3;

where volume is a derived type from the templated volume class. This gives me the following error:

error: ambiguous overload for ‘operator+’ in ‘volume + 1.3’

Why is the call ambiguous?

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Can you show at least declaration of your class? The exact declaration of the operators depend on it. –  Jan Hudec Jun 15 '12 at 10:10
Why can't you just use your class as one of the arguments, and let the other be templated? I.e. template<typename Vt> YourClass operator+(YourClass a, const Vt value) { return a += value; } –  Joachim Pileborg Jun 15 '12 at 10:11

3 Answers 3

up vote 4 down vote accepted

Your second template could be inferred with Class = typeof(volume) and dataType = double, or your third template can be inferred with dataType = typeof(volume) and Class = double. The compiler can't choose between them, even though quite possibly the third template would fail to instantiate.

I'm assuming that volume has a user-defined type. If it has a built-in type, then I don't think the call would be ambiguous, because for the purpose of operator overload resolution only, there are "real" functions double operator+(double, double); etc, that would be selected before the templates are even considered.

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Ahh, it seems obvious in retrospect. Presumably the two operator overloads were intended to be partial template specialisations, and instead have ended up remaining totally generic. –  Rook Jun 15 '12 at 10:14
@Rook: something along those lines. My guess is that because there are a lot of different types that volume could be, this seemed easier than trying to define more specific templates for operator+. –  Steve Jessop Jun 15 '12 at 10:15

Assume Volume is the name of your class.

Volume volume;

When volume + 1.3 needs to be resolved, compiler looks for suitable methods. And it finds two of them.

  1. template Class operator+(Class c, dataType constant)
  2. template Class operator+(dataType constant, Class c)


The literal 'Class' in these definitions has no significance. It is not at all related to the 'Volume' class, even if you intend to happen so.

So, compiler sees it as: 1.

template <typename X, typename Y>
X operator+(X c, Y constant)
  1. template Z operator+(Z constant, X c)

So, both of these are equally good enough for the compiler for the line


i.e : from (1) :

Volume operator+(Volume c, double constant)

from (2) :

Volume operator+(Volume constant, double c)

Now, it is ambiguous for the compiler.

Solution : I can only see the solution that you have to define these operator for each volume type separately.

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Others explained why your code does not work. But in general it is a very bad idea to write function templates that accept any argument type. That's only asking for ambiguities.

If you have a list of "volume" types you want to have operator+ for, you can make them inherit a common base class, which you can then use as parameter type in your template.

template<typename T>
struct VolumeBase { 
  T copy() const { return get(); }
  T const& get() const { return static_cast<T const&>(*this); }

template <typename Class, typename Class>
Class operator+(VolumeBase<Class> const& c, VolumeBase<Class> const& c1) {
   return c.copy() += c1.get();

template <typename Class, typename dataType>
Class operator+(VolumeBase<Class> const& c, dataType constant) {
   return c.copy() += constant;

template <typename Class, typename dataType>
Class operator+(dataType constant, VolumeBase<Class> const& c) {
   return c.copy() += constant;

Unfortunately you have moved the argument copy into the body of the template this way, but if it can be inlined (for such a simple body, I would think that's no problem), that's not going to hurt performance. So each volume class will be defined as

class MyVolumeClass : public VolumeBase<MyVolumeClass> { ... };
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