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I have written a class for complex numbers in which I have overloaded the operator + and everything works fine, however I need to implement this as a non-member function and I am not sure how, or why there is a benefit of doing so.

Here is my code .h:

class Complex
    double a;
    double b;

    Complex(double aGiven);
    Complex(double aGiven, double bGiven);

    double aGetValue();
    double bGetValue();    
    double operator[](bool getB);

    Complex add(Complex &secondRational);
    Complex operator+(Complex &secondRational);


Complex Complex::add(Complex &secondRational)
    double c = secondRational.aGetValue();
    double d = secondRational.bGetValue();
    double anew = a+c;
    double bnew = b+d;
    return Complex(anew,bnew);

Complex Complex::operator+(Complex &secondRational)
    return add(secondRational);

Any help on how to make these as non-member functions will be greatly appreciated!

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possible duplicate of Operator overloading –  Xeo Oct 9 '13 at 21:06
You do need to read about const. Very urgently. –  sbi Oct 10 '13 at 17:44

3 Answers 3

up vote 1 down vote accepted

Here is the addition operator outside of the class:

Complex operator+(const Complex& lhs, const Complex& rhs) {
  //implement the math to add the two
  return Complex(lhs.aGetValue() + rhs.aGetValue(),
                 lhs.bGetValue() + rhs.bGetValue());

Of course you will need to declare aGetValue() and bGetValue() as const:

double aGetValue() const {return a;}
double bGetValue() const {return b;}
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You can declare a friend to your Complex class

class Complex {

// blah....

    friend Complex operator+(Complex const& a, Complex const & b);

The overloaded operator can access the private members of Complex.

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The usual approach to arithmetic operations is to define the reflexive versions of the operators as members and the pure versions as non-members, implementing them with the reflexive versions:

class complex {
    const complex& operator+=(const complex& rhs) {
        real += rhs.real;
        imag += rhs.imag;
        return *this;

complex operator+(const complex& lhs, const complex& rhs) {
    complex res(lhs);
    res += rhs;
    return res;
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+1, but += should return a non-const reference. –  Daniel Frey Oct 9 '13 at 20:14
Now you managed to confuse me. Why do you think it would be confusing? Considering int i = 0; (i+=1)+=2; is legal for integral types, why shouldn't it be legal for UDTs? –  Daniel Frey Oct 9 '13 at 20:22
@TemplateRex Temporaries are no big deal if the objects are small, Complex here is just two doubles. But I used to work with Complex<T> and T was a base-10 high-precision custom type. Or think of matrices. This is where it becomes important to avoid temporaries and why libraries like my df.operators try to avoid them. And this is also why you should IMHO allow users to write "stupid" stuff like (i+=j)+=k;. Yes, a sane person would use i+=j; i+=k;, but my experience says I can't assume sane behaviour from others at all time :-) –  Daniel Frey Oct 9 '13 at 21:12
@PeteBecker no the dupe was a side remark. I downvoted for the const ref because it's different from builtin behavior and standard libray practice, and quite possibly a performance pessimization. –  TemplateRex Oct 10 '13 at 16:43
T x; T& y = (x += 1); should be valid. Not because I want to use it, but because you do not have a good reason to prevent me from doing so. End of story! –  Lightness Races in Orbit Oct 10 '13 at 17:34

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