I saved group of points on my panel to `List<MyVector> savedPoints`, then I calculated the the point with lowest coordinate y :

`````` public void searchLowest()
{
MyVector temp;
double ylon = savedPoints[0].getY();
for (int i = 0; i < savedPoints.Count; i++)
{
if (savedPoints[i].getY() > ylon)
{
ylon = savedPoints[i].getY();
lowest = i;
}
}

temp = savedPoints[lowest];
}
``````

after this I made a method to calculate polar angles :

``````public static double angle(MyVector vec1, MyVector vec2)
{
double angle = Math.Atan2(vec1.getY() - vec2.getY(), vec1.getX() - vec2.getX());
return angle;
}
``````

now don't know how to use Gift wrapping algorithm in my case. The pseudocode on WikiPedia link is not really understandable for me, so I'm asking for help here.

I'm using C# and win forms (net.framework 4.0)

Thanks for any help.

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Using this as a reference, here is teh code:

``````namespace GiftWrapping
{
using System.Drawing;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;

class Program
{
static void Main(string[] args)
{
List<Point> test = new List<Point>(
new Point[]
{
new Point(200,200), new Point(300,100), new Point(200,50), new Point(100,100),
new Point(200, 100), new Point(300, 200), new Point(250, 100),
});

foreach (Point point in ConvexHull(test))
{
Console.WriteLine(point);
}

}

public static List<Point> ConvexHull(List<Point> points)
{
if (points.Count < 3)
{
throw new ArgumentException("At least 3 points reqired", "points");
}

List<Point> hull = new List<Point>();

// get leftmost point
Point vPointOnHull = points.Where(p => p.X == points.Min(min => min.X)).First();

Point vEndpoint;
do
{
vEndpoint = points[0];

for (int i = 1; i < points.Count; i++)
{
if ((vPointOnHull == vEndpoint)
|| (Orientation(vPointOnHull, vEndpoint, points[i]) == -1))
{
vEndpoint = points[i];
}
}

vPointOnHull = vEndpoint;

}
while (vEndpoint != hull[0]);

return hull;
}

private static int Orientation(Point p1, Point p2, Point p)
{
// Determinant
int Orin = (p2.X - p1.X) * (p.Y - p1.Y) - (p.X - p1.X) * (p2.Y - p1.Y);

if (Orin > 0)
return -1; //          (* Orientaion is to the left-hand side  *)
if (Orin < 0)
return 1; // (* Orientaion is to the right-hand side *)

return 0; //  (* Orientaion is neutral aka collinear  *)
}
}
}
``````

-
@Rhexis you are welcome! :) –  Petr Abdulin Jan 30 '13 at 4:38
guys this one is infinity loop in one case but I am debugging now why... –  Ivo Mar 29 '13 at 12:46

Here is an implementation using the System.Windows.Point class in WindowsBase:

``````public struct PolarVector {
public double Radius { get; set; }
public double Angle { get; set; }

public override string ToString() {
return "{" + Radius + "," + Angle + "}";
}
}

private static void Main(string[] args) {
var points = new[] {
new Point {X = 0, Y = 0},
//new Point {X = 2, Y = 0},
new Point {X = 0, Y = 2},
new Point {X = 1.5, Y = 0.5},
new Point {X = 2, Y = 2},
};
foreach(var point in ConvexHull(points)) {
Console.WriteLine(point);
}
Console.WriteLine();
if(Debugger.IsAttached) {
Console.WriteLine("Press any key to exit...");
}
}

public static IList<Point> ConvexHull(IList<Point> points) {
var pointOnHull = LeftMost(points);
var pointsOnHull = new List<Point>();
Point currentPoint;
do {
currentPoint = points[0];
foreach(var nextPoint in points.Skip(1)) {
if (currentPoint == pointOnHull || IsLeft(nextPoint, pointOnHull, currentPoint)) {
currentPoint = nextPoint;
}
}
pointOnHull = currentPoint;
}
while (currentPoint != pointsOnHull[0]);
return pointsOnHull;
}

private static Point LeftMost(IEnumerable<Point> points) {
return points.Aggregate((v1, v2) => v2.X < v1.X ? v2 : v1);
}

private static bool IsLeft(Point nextPoint, Point lastPoint, Point currentPoint) {
var nextVector = ToPolar(nextPoint, lastPoint);
var currentVector = ToPolar(currentPoint, lastPoint);
return nextVector.Radius != 0 && Normalize(nextVector.Angle - currentVector.Angle) > 0;
}

private static PolarVector ToPolar(Point target, Point start) {
var vector = target - start;
return new PolarVector { Radius = Math.Sqrt((vector.Y * vector.Y) + (vector.X * vector.X)), Angle = Math.Atan2(vector.Y, vector.X)};
}

private static double Normalize(double radians) {
}
}
}
``````
-

For Gift Wrapping algorithm implementation, it is advisable that one uses Left test technique

``````    // Left test implementation given by Petr
private static int Orientation(Point p1, Point p2, Point p)
{
// Determinant
int Orin = (p2.X - p1.X) * (p.Y - p1.Y) - (p.X - p1.X) * (p2.Y - p1.Y);

if (Orin > 0)
return -1; //          (* Orientaion is to the left-hand side  *)
if (Orin < 0)
return 1; // (* Orientaion is to the right-hand side *)

return 0; //  (* Orientaion is neutral aka collinear  *)
}
``````

Using this(Left test) comparison technique helps us in wrapping the gift faster, so to speak.

Never ever use arc tangent calculations, it will impact the run times in a big way.

Reference: Left test technique mentioned here - http://stackoverflow.com/a/1560510/1019673

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