How to differentiate two constructors with the same parameters?

Suppose we want two constructors for a class representing complex numbers:

``````Complex (double re, double img)  // construct from cartesian coordinates
Complex (double A, double w) // construct from polar coordinates
``````

but the parameters (number and type) are the same: what is the more elegant way to identify what is intended? Adding a third parameter to one of the constructors?

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You can create 2 classes, Polar and Cartesian and pass the them as argument to Complex. I mean Complex(const Polar&) and Complex(const Cartesian &). –  chappar Mar 15 '10 at 9:51

It is better to add static methods with appropriate names and let them to create the objects.

``````static Complex createFromCartesian(double re, double img);
static Complex createFromPolar(double A, double w);
``````
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you can, of course, also have the constructor defer to one of these as the 'default' representation –  jk. Mar 15 '10 at 9:55
Ok, this is some sort of factory methods. It's the same solution Naveen points. The solution by Neil will work, but it implies writing two more classes. –  cibercitizen1 Mar 15 '10 at 10:06
@cibercitizen1 You will probably find you need those classes anyway. They can for example be used for overloading Complex member functions. –  anon Mar 15 '10 at 10:28
@Neil: I doubt that it is a good Idea to have additional +-/* like Complex + Polar, Complex + Cart, and so on. –  Mykola Golubyev Mar 15 '10 at 12:20
@Mykola: If it makes sense to have Complex + Complex, and it makes sense to make a Complex from a Polar, then it must make sense to have Complex + Complex(Polar), which means it must make sense to have Complex + Polar. –  Bill Mar 15 '10 at 12:25

You can't have two constructors (or any functions) with the same signatures. The best solution is probably to create classes for your coordinate types and overload on those. For example:

``````struct CartCoord {
CartCoord( double re, double img ) : mRe(re), mImg(img) {}
double mRe, mImg;
};

struct PolarCoord {
PolarCoord( double a, double v ) : mA(a), mV(v) {}
double mA, mV;
};
``````

``````Complex( const CartCoord & c );
Complex( const PolarCoord & c);
``````

In use:

``````Complex c( CartCoord( 1, 2 ) );
``````

You can also use them with overloaded operators of the Complex class. For example, assuming you have a binary + operator for the class define as:

``````Complex operator+( const Complex &, const Complex & );
``````

then:

``````Complex a( CartCoord( 0, 0 ) );
Complex b = a + PolarCoord( 1, 1 );
``````

As we have a conversion constructor from PolarCoord to Complex, this will be used in the + expression. This is more natural (IMHO) than calling static functions to create the temporary..

This is an example of Koenig's dictum (or at least a version of it) - whenever faced with a difficult problem, introduce a new level of classes to solve it.

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This is the correct answer. Why downvotes? –  chappar Mar 15 '10 at 9:49
I had the same answer, but this one is worded better. +1 –  seanhodges Mar 15 '10 at 9:55
Koenig's dictum? I thought Grady Booch said "Every problem in computer science can be solved by adding one more level of indirection". –  duffymo Mar 15 '10 at 9:59
@duffymo Lots of people have said something similar - the Koenig version is specifically about classes. –  anon Mar 15 '10 at 10:00
Thanks for the education, Neil. –  duffymo Mar 15 '10 at 11:58

Use the named constructor idiom described here at the Parashift C++ FAQ.

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You can't - if the method signatures are the same, you're stuffed.

Of course, you could always create a subclass for each type of coordinate system, but that's far from ideal - especially if you later find a good reason to want to subclass Complex for other reasons...

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Just noticed Mykola Golubyev's answer - Go with that. Have one type on your constructor, but provide a factory method for the other. What was I thinking??? Must be Monday. –  Martin Milan Mar 15 '10 at 9:48

Instead of having two constructors, you need to have only one, but add a third parameter, for example:

``````Complex (double re, double img, enum type) {
if(type == polar) {
..treat as polar coordinates..
} else {
..treat as cartesian coordinates..
}
}
``````

'enum type' can have a default type as well so you don't have to supply what type of coordinates you intend to use every time, the default should off course be what's most used.

``````Complex (double re, double img, enum type = polar);
``````
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It might be better if you don't supply a default. Force the user to think about which coordinate set he wants. It'll help make wrong code look wrong. –  Michael Kristofik Mar 15 '10 at 10:51

I don't know if it is good practice in C++ but I would name these two methods differently, at least for a maintainability point of view.

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but it is a constructor, you can not name them differently. –  Naveen Mar 15 '10 at 11:43
I suppose you know constructors can't have two names. Are you suggesting having two factory methods? –  cibercitizen1 Mar 15 '10 at 18:12
I just suggest that in general when two methods have different behaviours, they should make it clear through their name or arguments. Other answers give implementation details better than I could do. –  mouviciel Mar 15 '10 at 19:46

I would probably create more classes, but then I am an adept of `Boost Strong Typedef` library.

For me it does not make sense to use `double` to represent both coordinates, module and angles.

So I would have:

``````class CoordinateX {};
class CoordinateY {};

class Modulus {};
class Angle {};

class Complex
{
public:
Complex(CoordinateX, CoordinateY);
Complex(Modulus, Angle);
};
``````

And there it's perfectly clear, and there is no ambiguity. Also you add some compile-time check of "units" in a loose sense. It rarely makes sense (if ever) to add an X-coordinate and an Y-coordinate, or worse a distance and an angle.

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