c#: define an implicit conversion on a property {get; set} for class

Question

I would like to create a class type that seems to be a double value but adds some functionality to it. I know the possibility described here. But this does not allow to assign a value to an existing instance:

public interface IUnit
{
    double ToScaled(double v);
    double ToSI(double v);
    
}

public class ScalableNumber
{
    public IUnit Unit { get; set; }
    double val;

    public double SI { get => val; set => val = value; }
    public double Scaled { get => Unit?.ToScaled(val)??val; set => val = (Unit == null)? value : Unit.ToSI(value); }
    
    public ScalableNumber(IUnit u)
    {
        Unit = u;
    }
    // implicit conversion to double, operates like an implicit get
    public static implicit operator double(ScalableNumber x) => x.val;

    // how do I implement an implicit set, assignig double to val

    // implicit constructor from double is not useful because I lose the unit
    public static implicit operator ScalableNumber(double x) => new ScalableNumber(null) { val=x};

    // implicit array property is not useful because the implicit value is a single value
    public double this[int i] { get => val; set => val = value; }
}
public class Unit:IUnit
{
    public double scale = 1;
    public double ToScaled(double v) => v/scale;
    public double ToSI(double v) => scale * v;
}
public class MyExample
{
    IUnit kilometer, hour, angstroemPerWeek;
    public ScalableNumber way;
    public ScalableNumber time;
    public ScalableNumber speed;

    public MyExample()
    {
        kilometer = new Unit() { scale = 1000 };
        hour = new Unit() { scale = 3600 };
        angstroemPerWeek = new Unit() { scale = 1e-10 / (60 * 60 * 24 * 7) };
        way = new ScalableNumber(kilometer);
        time = new ScalableNumber(hour);
        speed = new ScalableNumber(angstroemPerWeek);
    }
    public static void ExecuteMyExample()
    {
        var myExample = new MyExample();
        myExample.way.Scaled = 100;
        myExample.time.Scaled = 1;
        Console.WriteLine(myExample.Speed);
    }

    public void Calculate()
    {
        //I would like to have speed in Ångström per week.
        //What I get with the present implementation is the speed in meters per second (unscaled)
        speed = way / time;
    }
    public string Speed { get { if (time <= 0) return string.Empty;  Calculate(); return speed.Scaled.ToString(); } }
}

Of course, I can code in Calculate():

speed.SI = way / time;

But if I could use the assignment without the .SI, I could re-use a lot of methods that are currently programmed for properties that have the type double.

Is there a way in c# to direct an assignment to a property without adding the property name?

Answer 1

The short answer is that you can't overload the assignment operator.

The long answer is that if you're willing to do something a bit hacky, you can kinda accomplish what you want with generics and an upcoming feature of C# 11, static abstract interface members.

Basically if you wanna keep the unit information, you will have to find somewhere else to store it, so store it in the type itself.

public interface IUnit
{
    static abstract double ToScaled(double v);
    static abstract double ToSI(double v);

}

// these interfaces exist so you can box the struct or use them as a generic constraint
public interface IScalableNumber
{
    double SI { get; set; }
    double Scaled { get; set; }
}

public interface IScalableNumber<TSelf> 
    : 
    IScalableNumber,
    IAdditionOperators<TSelf, double, TSelf>
    // more I...Operators interfaces
    where TSelf : IScalableNumber<TSelf>
{
    static abstract implicit operator TSelf(double x);
}

// changed this to struct because I didn't see a reason for it to remain a class
public struct ScalableNumber<TUnit> : IScalableNumber<ScalableNumber<TUnit>> where TUnit : IUnit
{
    private double val;

    public double SI { get => val; set => val = value; }
    public double Scaled { get => TUnit.ToScaled(val); set => TUnit.ToSI(val); }

    public static ScalableNumber<TUnit> operator +(ScalableNumber<TUnit> left, double right) => left.val + right;

    public static implicit operator double(ScalableNumber<TUnit> x) => x.val;
    public static implicit operator ScalableNumber<TUnit>(double x) => new() { val = x };

    public ScalableNumber<TNewUnit> WithDifferentUnit<TNewUnit>() where TNewUnit : IUnit => val;
}

public abstract class KilometerUnit : IUnit
{
    private const double scale = 1000;
    public static double ToScaled(double v) => v / scale;
    public static double ToSI(double v) => scale * v;
}

public abstract class HourUnit : IUnit
{
    private const double scale = 3600;
    public static double ToScaled(double v) => v / scale;
    public static double ToSI(double v) => scale * v;
}

public abstract class AngstroemPerWeekUnit : IUnit
{
    private const double scale = 1e-10 / (60 * 60 * 24 * 7);
    public static double ToScaled(double v) => v / scale;
    public static double ToSI(double v) => scale * v;
}
public class MyExample
{
    public ScalableNumber<KilometerUnit> way;
    public ScalableNumber<HourUnit> time;
    public ScalableNumber<AngstroemPerWeekUnit> speed;

    public MyExample()
    {
        way = new();
        time = new();
        speed = new();
    }
    public static void ExecuteMyExample()
    {
        var myExample = new MyExample();
        myExample.way.Scaled = 100;
        myExample.time.Scaled = 1;
        Console.WriteLine(myExample.Speed);
    }

    public void Calculate()
    {
        speed = way / time;
        //now after the assignment, speed is still in 'AngstroemPerWeek'

        // in order to change between units do this
        way = time.WithDifferentUnit<KilometerUnit>();

        // implicit assignment won't work with the non generic interface:
        IScalableNumber speedBoxed = speed;
        speedBoxed = 10.0;

        // all of these should work flawlessly though :) ... and allocate no heap memory
        IncrementScalable(ref way);
        IncrementScalable(ref time);
        IncrementScalable(ref speed);
    }

    public void IncrementScalable<TScalable>(ref TScalable someNumber) where TScalable : IScalableNumber<TScalable>
    {
        someNumber += 1;
    }
public string Speed { get { if (time <= 0) return string.Empty; Calculate(); return speed.Scaled.ToString(); } }

}