Вот решение.
public class Point
{
public int X { get; set; }
public int Y { get; set; }
}
Point[] arrayPoint = new Point[]
{new Point{ X = 60, Y = 40},
new Point{ X = 10, Y = 30},
new Point{ X = 40, Y = 30},
new Point{ X = 50, Y = 5},
new Point{ X = 50, Y = 60},
new Point{ X = 40, Y = 60},
new Point{ X = 20, Y = 50},
new Point{ X = 50, Y = 45},
new Point{ X = 40, Y = 45},
new Point{ X = 10, Y = 40},
new Point{ X = 55, Y = 35},
new Point{ X = 35, Y = 35},
new Point{ X = 65, Y = 25},
new Point{ X = 25, Y = 25},
new Point{ X = 40, Y = 20},
new Point{ X = 30, Y = 20},
new Point{ X = 10, Y = 20},
new Point{ X = 50, Y = 10},
new Point{ X = 30, Y = 10},
new Point{ X = 10, Y = 10}
};
var arraySort = await Task.Run(() => sort.SortArray(arrayPoint));
public class SortClass
{
public List<Rectangle> SortArray(Point[] array)
{
Rectangle rectangle;
List<Rectangle> result = new List<Rectangle>();
for (int a = 0; a < array.Length - 3; a++)
{
for (int b = a + 1; b < array.Length - 2; b++)
{
for (int c = b + 1; c < array.Length - 1; c++)
{
for (int d = c + 1; d < array.Length; d++)
{
rectangle = new Rectangle()
{
One = array[a],
Two = array[b],
Three = array[c],
Four = array[d]
};
result.Add(rectangle);
}
}
}
}
return result;
}
}
arrayPoint[3], arrayPoint [2], arrayPoint [1], arrayPoint [7]
первая комбинация.arrayPoint[2], arrayPoint [5], arrayPoint [6], arrayPoint [4]
- вторая комбинация