5

I'm a little curious about some of the code that I saw at school and whether or not this is common practice in the field or just bad design.

Consider the following interface and the two classes that implement it...

public abstract interface Anchor
{
    public abstract double x(double x);

    public abstract double y(double y);
}

Notice in the Cycle class the arguments in x() and y() are actually used...

public class Cycle implements Anchor
{
    public Anchor anchor;
    public double radius;
    public double period;
    public double phase = 4.0D;

    public Cycle(Anchor anchor, double radius, double period) {
        this.anchor = anchor;
        this.radius = radius;
        this.period = period;
    }

    public double angle(double day) {
        return this.phase * 3.141592653589793D * (day / this.period) / 2.0D;
    }

    public double x(double x) {
        return this.anchor.x(x) + Math.cos(angle(x)) * this.radius;
    }

    public double y(double y) {
        return this.anchor.y(y) + Math.sin(angle(x)) * this.radius;
    }
}

But here in the Center class the arguments in x() and y() exist solely to fulfill the contact with the Anchor interface and aren't actually used in the method...

public class Center implements Anchor
{
    public double x;
    public double y;

    public Center(double x, double y) {
        this.x = x;
        this.y = y;
    }

    public double x(double x) { return this.x; }
    public double y(double y) { return this.y; }
}

Is this something that you'll see commonly in production java code? Is it an accepted practice or a bad work around?

11

Yes, this is very common to all OOP code.

An interface defines a set of methods that are available on any objects that implement that interface. The implementation of those methods is something that a caller isn't supposed to care about, and it's not at all unusual that some arguments seen in an interface don't apply to certain implementations.

  • 1
    I'd add that there's inevitably an asymmetry between the requirements of the consumer of the interface and the requirements of the implementor. The designer exposes an interface with the minimum number of parameters to satisfy the most sophisticated implementation (usually, one that will require consumption of all the parameters). However, clearly there will often be simpler implementations of that interface, more general implementations that work across a larger range of possible parameters. – Kirk Woll Sep 18 '11 at 0:43
1

While adpalumbo is correct that it's not an unusual situation, it can also be indicative of a design problem, particularly if you have a long list of parameters and each implementation uses a different one. E.g.

interface Waffle {
    void iron(int a, int b, int c, int d, int e);
}

class Belgian implements Waffle {
    void iron(int a, int b, int c, int d, int e) {
        doSomethingWith(a);
    }
}

class American implements Waffle {
    void iron(int a, int b, int c, int d, int e) {
        doSomethingElseWith(b);
    }
}

class Scandinavian implements Waffle {
    void iron(int a, int b, int c, int d, int e) {
        andYetAgainWith(c);
    }
}

// etc.

I like waffles, but that's just nasty.

The real question is whether the arguments, taken as a whole, make sense in the context of whatever the interface is supposed to represent.

  • Actually, there are times when that can end up being a reasonable pattern. One might have a "geometric transform" interface with x, y, and z properties that each accept x and y and z as parameters (perhaps in addition to a property which would return an xyz triplet). It would be entirely expected to have an identity transform whose x method returned x, y method returned y, and z method returned z. One might also have a rotate90z transform (rotate 90 degrees about the z axis) whose x method returned y, whose y method returned -x, and whose z method returned z. – supercat Sep 18 '11 at 15:30
  • @supercat: Agreed. That's why I said it can be indicative and that you have to consider the arguments in light of what the interface expresses. Unfortunately, in my experience, people use interfaces poorly more often than well. – Ryan Stewart Sep 18 '11 at 15:39
1

To add in to 2 posts above, I would like to point out following.

  1. The use of abstract keyword in interface declaration is considered very bad practice as this is considered obsolete, because the interface is considered abstract implicitly.

  2. The use of abstract keyword in method declaration in the interface is considered extremely bad practice for the same reason as pointed in point 1 above. Methods declarations are implicitly abstract.

  3. The use of Public keyword in method declaration is also considered very bad practice for the same reason, as methods declared in interface are implicitly public.

  4. The methods in interface can not be static as static methods can't be abstract.

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