"elegantly" is a big word... Elegance is in the eye of the beholder. This will work. I won't explain it to you because you didn't show what you did before asking.
class Point
{
public Point(int x, int y)
{
X = x;
Y = y;
}
public int X;
public int Y;
}
List<Point> differenceList = new List<Point>() { new Point(40, 60), new Point(10, 20), new Point(20, 30), new Point(12, 61) };
Func<Point, int> getPointX = p => p.X;
Func<Point, int> getPointY = p => p.Y;
Func<Func<Point, int>, int> finder = getter =>
{
var temp = differenceList.OrderBy(getter).ToList();
var min = temp.Zip(temp.Skip(1), (p, q) => getter(q) - getter(p)).Min();
return min;
};
var minX = finder(getPointX);
var minY = finder(getPointY);
I'll add that if you want the p and q values that gives you the minimum difference then elegance will go out of the window. Sadly it isn't easy in LINQ to extract the minimum "object" if that object doesn't implement IComparable
.
If you really want the full data, fortunately Tuple<>
implements IComparable
, then you have:
Func<Func<Point, int>, Tuple<int, int, int>> finder = getter =>
{
var temp = differenceList.OrderBy(getter).ToList();
var min = temp.Zip(temp.Skip(1), (p, q) => Tuple.Create<int, int, int>(getter(q) - getter(p), getter(q), getter(p))).Min();
return min;
};
var minX = finder(getPointX);
var minY = finder(getPointY);
Console.WriteLine("X difference = {0} (which is {1} - {2})", minX.Item1, minX.Item2, minX.Item3);
Console.WriteLine("Y difference = {0} (which is {1} - {2})", minY.Item1, minY.Item2, minY.Item3);