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is it possible to overload the operator% for two doubles?

const double operator%(const double& lhs, const double& rhs)
    return fmod(lhs, rhs);

Of course, this generates an error because one of the two parameters must have a class type. So I thought about utilizing the possibility of implicit constructor calls of C++ to get around of this problem. I did it in the following way:

class MyDouble {
    MyDouble(double val) : val_(val) {}
    ~MyDouble() {}

    double val() const { return val_; }

    double val_;

const double operator%(const MyDouble& lhs, const double& rhs)
    return fmod(lhs.val(), rhs);

const double operator%(const double& lhs, const MyDouble& rhs)
    return fmod(lhs, rhs.val());

... and:

double a = 15.3;
double b = 6.7;

double res = a % b; // hopefully calling operator%(const MyDouble&, const double) using a implicit constructor call

Unfortunately, this does not work! Any hints, ideas, ... are appreciated! Thanks in advance, Jonas

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hmm... why not simply call fmod() directly and not hack around with operator overloading where it's not necessary? – Nim Apr 28 '11 at 11:47

2 Answers 2

The reason this doesn't work is because overload resolution for user defined operator functions is only triggered if at least one operand of the expression has a class or enumeration type.

So you are out of luck. This won't work.

I think the best you could try is waiting for a C++0x compiler and instead of writing 3.14, you write 3.14_myd, as a user defined literal.

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alternatively, implement double MyDouble::operator%(const double&) const;, like so:

#include <iostream>
#include <cmath>

class t_double {
    t_double(const double& val) : d_val(val) {

    t_double(const t_double& other) : d_val(other.d_val) {

    ~t_double() {

    const double& val() const {
        return this->d_val;

    double operator%(const double& rhs) const {
        return fmod(this->val(), rhs);

    double operator%(const t_double& rhs) const {
        return fmod(this->val(), rhs.val());

    double d_val;

int main(int argc, char* const argv[]) {

    const t_double a(15.3);
    const t_double b(6.7);

    std::cout << a % b << " == " << a.val() << " % " << b.val() << "\n";

    return 0;
share|improve this answer
I thought about this way, but I did not succeeded :( For a small example I would be very happy! Thanks! – Jonas Apr 28 '11 at 11:39
@Jonas updated. – justin Apr 28 '11 at 11:52
Ok but the if you change const t_double a(15.3); to double a = 15.3; (for b too), then the code won't compile. And in the code I want to use not t_double but double. – Jonas Apr 28 '11 at 11:59
it doesn't compile because you have to declare the free function: double operator%(const double& lhs, const t_double& rhs) { return t_double(lhs) % rhs; } – justin Apr 28 '11 at 12:06
i had thought you had said double a; t_double b; a % b did not compile. – justin Apr 28 '11 at 12:15

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