Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am working on two wrapper classes that define real and complex data types. Each class defines overloaded constructors, as well as the four arithmetic operators +,-,*,/ and five assignment operators =,+= etc. In order to avoid repeating code, I was thinking of using template functions when the left- and right-hand-side arguments of an operator are of a different data type:

// real.h
class Real {
  explicit Real(const double& argument) {...}
  explicit Real(int argument) {...}

  friend const operator*(const Real&; const Real&);
  template <class T> friend const Real operator*(const Real&, const T&);
  template <class T> friend const Real operator*(const T&, cont Real&);
  // Here, T is meant to be a template parameter for double and int

  // Repeat for all other arithmetic and assignment operators

// complex.h
class Complex {
  explicit Complex(const Real& realPart) {...}
  explicit Complex(const Real& realPart, const Real& imaginaryPart) {...}
  // Overload for double and int data types

  friend const operator*(const Complex&, const Complex&);
  template <class T> friend const Complex operator*(const Complex&, const T&);
  template <class T> friend const Complex operator*(const T&, cont Complex&);
  // Here, T is is a template parameter for Real, double and int


The problem here is that code like:

void main() {
  Complex ac(2.0, 3.0);
  Real br(2.0);
  Complex cc = ac * br;

returns the compiler (gcc) error ambiguous overload for 'operator*' in 'ac * br', as the compiler cannot tell the difference between:

  • template <class T> friend const Complex operator*(const Complex&, const T&) [with T = Real]
  • template <class T> friend const Real operator*(const T&, cont Real&) [with T = Complex]

Is there a way to specify that T cannot be a Complex in the template operator* definition in the class Real? Or do I have to do without templates and define each operator for every possible combination of argument data types? Or is there a way to redesign the code?

share|improve this question

3 Answers 3

up vote 2 down vote accepted

Ah, the problem of operators...

Boost created a nice library so that by providing a minimum of logic all the other variations are automagically added for you!

Take a look at Boost.Operators !

Now for your problem, actually as you noticed, you will have to define both flavors of the operators (int and double) rather than using a generic template. If there is a lot of logic in these operators (which I doubt), you can always have them call a common (templated) method.

template <typename T>
Complex complex_mult_impl(T const& lhs, Complex const& rhs) { ... } // Note (1)

// return type is not 'Complex const', see (2)
Complex operator*(int lhs, Complex const& rhs)
  return complex_mult_impl(lhs,rhs);

But if you use Boost.operators you only provide Complex::operator*=(int) and Complex::operator*=(double) and the stand-alone versions will be automatically deduced :)

(1) You might use pass by-value here, if all arguments are built-ins. You might also want to consider Boost.CallTraits, which automatically chooses between by-value and by-ref depending if the argument is built-in or not. It is handy for templates.

(2) When returning arguments by value, it is non-sensical to qualify them as const. The const keyword only means something for references and pointers, here nothing prevents the user to instantiate a 'simple' Complex... and you are fortunate it doesn't!

share|improve this answer

You could make either the Real or Complex class have non-global multiplication operators.

class Real 

  template <class T> const Real operator*(const T&);
  const Real operator*(const Real&);

share|improve this answer

Can you make Complex constructors explicit? This will mean that the implicit conversion from Real to Complex is not allowed and should disambiguate the operator *

share|improve this answer
The constructors should indeed be made explicit (question edited). However, in this case making them explicit does not eliminate the compile error. –  ASV Oct 27 '09 at 13:54

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.