Conversion Operators in C++
In C++, the programmer abstracts real-world objects using classes as concrete types. Sometimes, it is required to convert one concrete type to another concrete type or primitive type implicitly. Conversion operators play an important role in such situations. It is similar to the operator overloading function in class.
For example consider the following class, here, we are making a class for complex numbers. It has two data members: real and imaginary.
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// CPP Program to demonstrate Conversion Operators#include <cmath>#include <iostream>using namespace std;class Complex {private: double real; double imag;public: // Default constructor Complex(double r = 0.0, double i = 0.0) : real(r) , imag(i) { } // magnitude : usual function style double mag() { return getMag(); } // magnitude : conversion operator operator double() { return getMag(); }private: // class helper to get magnitude double getMag() { return sqrt(real * real + imag * imag); }};int main(){ // a Complex object Complex com(3.0, 4.0); // print magnitude cout << com.mag() << endl; // same can be done like this cout << com << endl;} |
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We are printing the magnitude of Complex objects in two different ways.
Note that the compiler will have more control in calling an appropriate function based on type, rather than what the programmer expects. It will be good practice to use other techniques like class/object specific member function (or making use of C++ Variant class) to perform such conversions. At some places, for example in making compatible calls with the existing C library, these are unavoidable.
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