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I have some delegates and a method:

delegate Point Translate(Point p);
delegate Translate Transform(Translate t);

Translate forward = p => new Point(p.X + 1, p.Y);

Question: How can I implement a method like this:

Transform Rotate90 = ??

So that Rotate90 rotates any Translate function 90 clockwise. So:

Point startPoint = new Point(1, 1);
Point endPoint = (Rotate90(forward))(startPoint);
//desired output: Point(1, 0)

EDIT 1: I'm not going to apply Translate functions one by one on a point. What I need is to apply some transformed functions (Translate function that have been rotated or reflexed) on a point.

WHAT I NEED: How can I write a Rotate90 which if I pass it (p=>new Point(p.X+1, p.y)) it returns me a function with the same effect as (p=>new Point(p.X, p.Y-1)).

EDIT 2: Some examples:

Translate forward =         p => new Point(p.X + 1, p.Y);
Translate backward =        p => new Point(p.X - 1, p.Y);
Translate downward =        p => new Point(p.X, p.Y - 1);
Translate runningForward =  p => new Point(p.X + 5, p.Y);

Transform Rotate90Cw = ??

Point samplePoint = new Point(1, 1);

Point p1 = (Rotate90Cw(forward))(samplePoint);          //must be (1,0)
Point p2 = (Rotate90Cw(backward))(samplePoint);         //must be (1,2)
Point p3 = (Rotate90Cw(downward))(samplePoint);         //must be (0,1)
Point p4 = (Rotate90Cw(runningForward))(samplePoint);   //must be (1,-4)
Point p4 = (Rotate90Cw(Rotate90Cw(forward)))(samplePoint);   //must be (0,1)

I need a single Rotate90Cw function that can be applied on any Translate function and returns a proper Translate function. So the effect of applying Rotate90Cw(forward) on a point would be the same as applying downward on a point. And so on...

I'm not going to make a separate Rotate function for every case (e.g. forwardRotated, downwardRotated and ...

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What about using extension methods imbrication the same way LINQ is designed ? –  Larry Mar 28 '13 at 15:07

2 Answers 2

up vote 3 down vote accepted

It's not clear that you actually want two delegates. It seems that really you want one delegate representing an arbitrary transformation from Point to Point - and you can then compose transformations. For example:

delegate Point Transform(Point input);

private static Transform Compose(Transform first, Transform second)
    return p => second(first(p));

Transform forward = p => new Point(p.X + 1, p.Y);
Transform rotate90 = p => new Point(p.Y, -p.X);
Transform forwardThenRotate = Compose(forward, rotate);

EDIT: It looks like what you actually want is a transform (taking in a transform) along the lines of:

  • Apply the original transform to (0, 0)
  • Rotate the result
  • Translate the incoming point by that much

We can do that easily:

Transform forward = p => new Point(p.X + 1, p.Y);
Transform rotate90 = p => new Point(-p.Y, p.X);
Point forwardRotatedPoint = rotate90(forward(new Point(0, 0));

Transform forwardRotated = p => new Point(forwardRotatedPoint.X + p.X,
                                          forwardRotatedPoint.Y + p.Y);

As I said elsewhere though, you probably actually want a Vector type, which has X and Y components... then you could have several composable concepts:

  • Creating a transformation (point to point) from a vector
  • Rotating one vector to create another
  • Composing transformations
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Defining Rotate that accepts a point and returns another point do not make sense. It is expected for Rotate to get a vector, and here the Translate delegate is the most similar things to vector. –  Hossein Narimani Rad Mar 28 '13 at 15:10
@HosseinNarimaniRad: I disagree completely - it's a rotation around the origin. I think it makes much more sense as a function on points and a function on arbitrary transformations. (If you really meant your Translate to be just a fixed translation, that should be using a vector-like type, not a delegate.) –  Jon Skeet Mar 28 '13 at 15:12
You are correct in this case. But I'm not going to apply some map functions on a point one by one. I want to apply some transformed map functions on a point. –  Hossein Narimani Rad Mar 28 '13 at 15:17
@HosseinNarimaniRad: I'm afraid you haven't made your requirements clear. I've provided one example of how you can compose transformations though - I'd hope that would be sufficient. If not, you really need to clarify your question. –  Jon Skeet Mar 28 '13 at 15:20
I edited my post. By the way the output of your Compose is a Point not a Transform (as you write it). –  Hossein Narimani Rad Mar 28 '13 at 15:32

I solve it this way (EDITED):

Translate Rotate90Cw(Translate moveFunction)
    return Rotate(moveFunction, Math.PI / 2.0);

Translate Rotate(Translate moveFunction, double angle)
    Point tempPoint = moveFunction(new Point(0, 0));
    double sin = Math.Sin(angle);
    double cos = Math.Cos(angle);
    return p => new Point(p.X + tempPoint.X * cos + tempPoint.Y * sin,
                           p.Y - tempPoint.X * sin + tempPoint.Y * cos);

Check if it is working:

Rotate90Cw(Rotate90Cw(runningForward))(new Point(1, 1)); //output: (-4,0.9999999)
Rotate90Cw(runningForward)(new Point(1, 1));             //output: (1,-4)
Rotate90Cw(backward)(new Point(1, 1));                   //output: (1,2)
Rotate90Cw(downward)(new Point(1, 1));                   //output: (0,1)
share|improve this answer
Right, that's basically the same approach as I used, just accepting an angle (although still oddly with 90 in the name) - but I still think you should have a different type for Translate. A translation isn't an arbitrary point to point transformation: it's the addition of a vector. So it would be better to represent it as a vector to start with. –  Jon Skeet Mar 29 '13 at 8:48

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