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Say i have a property in a class:

Vector3 position{get; set;}

So i create an instance of that class somewhere and now i want to change position.x, that would be impossible now because the getter and setter set and get the whole object. So i have to make a temporary Vector3 change its values and then assign it.

Normally i would make position a public field so that problem would be solved. But i cant do it in this case because position is an implementation of an interface and interfaces cant have fields.

So how can i solve this the best way.

Edit: Vector3 is a struct so its a value type

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4 Answers 4

up vote 5 down vote accepted

IMO, the easiest answer here:

private Vector3 position;
public Vector3 Position {
    get {return position;}
    set {position = value;} // with @Mehrdad's optimisation
public float X {
    get {return position.X;}
    set {position.X = value;}
public float Y {
    get {return position.Y;}
    set {position.Y = value;}
public float Z {
    get {return position.Z;}
    set {position.Z = value;}

Now you can change obj.X, obj.Y and obj.Z if you only need to change one dimension, or change obj.Position to change everything.

If you need the name position to implement an interface, then do it explicitly:

Vector3 IWhateverInterface.position {
    get {return position;}
    set {position = value;}
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Yes thats what i thought about but like i explained in the comments above position will be modified allot so is this the most efficient way? Reading the answers i assume this is the only way am i right ? –  slayerIQ Jan 17 '10 at 22:40
This is essentially identical to providing methods. A possible micro-optimization is to avoid using automatic properties for Position and directly modify position.X in the X property. –  Mehrdad Afshari Jan 17 '10 at 22:41
@slayerIQ you have to pick your battle. If that is the problem you could just expose position as the field, and do the explicit interface implementation as per the bit I added at the end? –  Marc Gravell Jan 17 '10 at 22:42
Thanks i'll go with the explicit interface implementation of position :) –  slayerIQ Jan 17 '10 at 22:44
@Mehrdad you are correct. It is late... modified (with credit) –  Marc Gravell Jan 17 '10 at 22:44

Is the straightforward solution somehow not acceptable?

foo.position = new Vector(newX, foo.position.Y, foo.position.Z);

What's wrong with that? It seems perfectly straightforward.

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That's one of the issues with mutable value types. You can create a new instance of the value type with the new X value and reassign in to the property. You can make the instance creation easier by providing useful constructors or adding methods that return a modified object (instead of modifying the value).

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The problem is that position will be changed allot. So creating a new instance or calling a method every time i want to modify the property would be overkill. –  slayerIQ Jan 17 '10 at 22:26
@slayerIQ: You can't modify this in the interface. Either you'll have to make Vector3 a class (which is probably less than ideal) or provide methods that modify position in the interface (with things like MoveHorizontally(float distance)) or just have the clients assign the property like obj.Position = new Vector3(obj.Position.X + 10, obj.Position.Y, obj.Position.Z);. This problem doesn't really have a better solution (the canonical example is Windows Forms with the Location and Size properties of the Control class). –  Mehrdad Afshari Jan 17 '10 at 22:29
slayerIQ never said that Vector3 is a value type. In fact, the post says it is a class. Whether that's a typo or not isn't clear. –  Eilon Jan 17 '10 at 22:31
@Eilon: If Vector3 was a reference type, you could easily do obj.Position.X += 10; without any issues and you wouldn't have any issues. –  Mehrdad Afshari Jan 17 '10 at 22:32
Right, but it isn't clear to me that slayerIQ actually tried that (or knew it was possible). I don't see any mention of compilation errors or runtime errors. –  Eilon Jan 17 '10 at 22:33

Pre-P.S.: Saw too late that Vector3 is a value type; the following post therefore won't be of much help. Sorry for that mistake.

Well, while interfaces cannot have fields, they can have properties, e.g.:

interface IVector3
    double X { get; set; }
    double Y { get; set; }
    double Z { get; set; }

In your Vector3, you simply implement those like everything else:

class Vector3 : IVector3
    double IVector3.X
        get { ... }
        set { ... } 

Now back to your position property. You tie the property to a fixed instance during initialization and only provide a getter:

Vector3 position
        return _position;

private Vector3 _position = new Vector3(...);

By making the property read-only (ie. no setter), you ensure that it won't be replaced with a new Vector3 object. Instead, you tie it to a fixed instance (_position) at initialization time. But you can change the Vector3 by assigning new values to position.X, position.Y, or position.Z.

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An alternative approach would be to define a VectorAccessor class or struct which implements IVector3 and holds a reference to the main object that has the Vector. Its X, Y, and Z properties would access MainObject._position.X, etc. This would be a good approach if the main class held a large array of a small structure. The indexer would return a VectorIndexer property whose XYZ would refer to MainObject._positions[Index].X, etc. –  supercat Jan 27 '11 at 16:19

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