Ejemplo n.º 1
0
 public Face(int[] v, Vec3D normal, double area)
 {
     vertices = v;
     numberOfVertices = v.Length;
     this.normal = normal;
     this.area = area;
 }
Ejemplo n.º 2
0
 /// <summary>
 /// Write a pointcloud for a vector array in txt format
 /// </summary>
 /// <param name="points"></param>
 /// <param name="filename"></param>
 internal static void WritePointCloudTxt(Vec3D[] points, string filename)
 {
     StreamWriter sw = new StreamWriter(filename + ".txt");
     foreach (Vec3D v in points)
     {
         sw.WriteLine(v.x + " " + v.y + " " + v.z);
     }
     sw.Close();
 }
Ejemplo n.º 3
0
        //parse een SOF file
        public static Model3D parseSofModel(string path, string sourcepath)
        {
            StreamReader sr = new StreamReader(path);

            string line;
            int vertices, faces;
            vertices = System.Convert.ToInt32(sr.ReadLine());
            faces = System.Convert.ToInt32(sr.ReadLine());
            Vec3D[] v = new Vec3D[vertices];
            ArrayList f = new ArrayList();

            for (int i = 0; i < vertices; i++) //possibly more than one whitespace inbetween, use Scanner?
            {
                line = sr.ReadLine();
                string[] items = line.Split(' ');
                try
                {
                    v[i] = new Vec3D(System.Convert.ToDouble(items[0]),
                                    System.Convert.ToDouble(items[1]),
                                    System.Convert.ToDouble(items[2]));
                }
                catch(FormatException)
                {
                    return null;
                }
            }

            for (int i = 0; i < faces; i++) //possibly more than one whitespace inbetween, use Scanner?
            {
                line = sr.ReadLine();
                string[] items = line.Split(' ');
                int aantal = System.Convert.ToInt32(items[0]);
                int[] vIndex = new int[aantal];
                for (int z = 1; z <= aantal; z++)
                {
                    vIndex[z - 1] = System.Convert.ToInt32(items[z]);
                }

                //Assumption of a polygon lying on a plane, would be hard otherwise, an average over the normals on the surface spline.
                Vec3D a, b, c;
                a = v[vIndex[0]];
                b = v[vIndex[1]];
                c = v[vIndex[2]];

                Vec3D normal = (b.subtract(a)).cross(c.subtract(a));

                ArrayList temp = Triangulate(ref v, new Face(vIndex, normal,0));
                foreach (Face face in temp)
                    f.Add(face);
            }
            sr.Close();

            Face[] f2 = (Face[])f.ToArray(typeof(Face));

            return new Model3D(v, f2, sourcepath);
        }
Ejemplo n.º 4
0
        static ArrayList Triangulate(ref Vec3D[] v, Face f)
        {
            //verdeel Face f in meerdere kleine faces van 3 vertices
            //Er wordt vanuit gegaan dat een face meer dan drie vertices heeft als deze in deze methode komt.
            //en geef deze in een arraylist terug, MOGELIJK in een array.

            //BEGIN Naive/Simple implementation, ONLY works on convex polygons.
            ArrayList q = new ArrayList();

            for (int i = 1; i < f.numberOfVertices - 1; i++)
            {
                int[] verts = new int[3];
                verts[0] = f.vertices[0];
                verts[1] = f.vertices[i];
                verts[2] = f.vertices[i + 1];

                Vec3D a, b, c;
                a = v[verts[0]];
                b = v[verts[1]];
                c = v[verts[2]];

                Vec3D norm = (b.subtract(a)).cross(c.subtract(a));
                double area = 0.5 * System.Math.Abs((c.subtract(a).cross(b.subtract(a)).length()));
                q.Add(new Face(verts, norm,area));
            }
            return q;

            //END Naive/Simple implementation
        }
Ejemplo n.º 5
0
 public unitVector(double phi, double theta, int a, int b, Vec3D v)
 {
     this.phi = phi;
     this.theta = theta;
     this.a = a;
     this.b = b;
     vector = v;
 }
Ejemplo n.º 6
0
 public Vec3D subtract(Vec3D v)
 {
     return new Vec3D(x - v.x, y - v.y, z - v.z);
 }
Ejemplo n.º 7
0
 public void sub(Vec3D v)
 {
     this.x -= v.x;
     this.y -= v.y;
     this.z -= v.z;
 }
Ejemplo n.º 8
0
        public bool Equals(Vec3D v)
        {
            // If parameter is null return false:
            if ((object)v == null)
            {
                return false;
            }

            // Return true if the fields match:
            return (x == v.x) && (y == v.y) && (z == v.z);
        }
Ejemplo n.º 9
0
 public double dot(Vec3D v)
 {
     return x * v.x + y * v.y + z * v.z;
 }
Ejemplo n.º 10
0
 public Vec3D cross(Vec3D v)
 {
     return new Vec3D(y * v.z - z * v.y, z * v.x - x * v.z, x * v.y - y * v.x);
 }
Ejemplo n.º 11
0
 public Vec3D addition(Vec3D v)
 {
     return new Vec3D(this.x + v.x, this.y + v.y, this.z + v.z);
 }
Ejemplo n.º 12
0
 public void add(Vec3D v)
 {
     this.x += v.x;
     this.y += v.y;
     this.z += v.z;
 }
Ejemplo n.º 13
0
        public static double[] SFFT(double[] data, unitVector[] ds)
        {
            //B^2 complex coefficients Flm in the range 0 (<= |m| <= l <= B)
            //extract the descriptor for k! the paper says 29 is good, or use the rotation invariant feature vector

            double[] rcoeffs = new double[B * B];   //(double*)malloc(sizeof(double) * (bw * bw));
            double[] icoeffs = new double[B * B];   //(double*)malloc(sizeof(double) * (bw * bw));
            double[] rdata = data;                  //(double*)malloc(sizeof(double) * (size * size));
            double[] idata = new double[4 * B * B];     //(double*)malloc(sizeof(double) * (size * size));
            double[] rdata2 = new double[4 * B * B];                //(double*)malloc(sizeof(double) * (size * size));
            double[] idata2 = new double[4 * B * B];     //(double*)malloc(sizeof(double) * (size * size));
            //idata = 0.0
            for (int i = 0; i < idata.Length; i++)
            {
                idata[i] = 0.0;
            }

            Console.WriteLine("Starting SFFT");
            DateTime startTime1 = DateTime.Now;

            try
            {
                calcCoeff(B, B, rdata, idata, rcoeffs, icoeffs);

                //if you wanna compute the real model again
                inverseTransform(B, B, rcoeffs, icoeffs, rdata2, idata2);
            }
            catch (DllNotFoundException e)
            {
                Console.WriteLine(e.StackTrace + "\n");
                Console.WriteLine("DLL not found.");
                Application.Exit();
            }
            //if you wanna compute the real model again

            Vec3D[] points = new Vec3D[4*B*B];
            for (int i = 0; i < rdata2.Length; i++)
            {
                int b = i % B2;
                int a = (i / B2);
                points[i] = ds[B2*b+a].vector.times(rdata2[i]);
            }
            Random test = new Random();
            FileWriter.WritePointCloudObj(points, "pointcloud" + test.Next(100));

            DateTime stopTime1 = DateTime.Now;
            TimeSpan duration1 = stopTime1 - startTime1;
            Console.WriteLine("SFFT duration: {0}", duration1.TotalSeconds);
            Console.WriteLine("Done SFFT");

            double[] fv = new double[B];
            /*
            int k = 29;
            double[] fv2 = new double[k * (k + 1) / 2 + 1];
            int total = 0;
            for (int l = 0; l < k; l++)
            {
                for (int m = 0; m < l; m++)
                {
                    int index = getCoeffIndex(m, l);
                    double mag = System.Math.Sqrt(rcoeffs[index] * rcoeffs[index] + icoeffs[index] * icoeffs[index]);
                    if(m == 0)
                    {
                        fv2[total] = mag/2;
                        total++;
                    }
                    else
                    {
                        fv2[total] = mag;
                        total++;
                    }

                }
            }

            return fv2; */

            for (int l = 0; l < B; l++)
            {
                double result = 0;
                for (int m = 0 - l; m <= l; m++)
                {
                    int index = getCoeffIndex(m, l);
                    result += rcoeffs[index] * rcoeffs[index] + icoeffs[index] * icoeffs[index];
                }
                fv[l] = System.Math.Sqrt(result);
            }

            return fv;
        }
Ejemplo n.º 14
0
        static double[] getMinMaxPhiTheta(ref Face f, ref Vec3D[] v, ref Model3D model)
        {
            /*	int minPhi      = phiTheta[0];
                int minTheta    = phiTheta[1];
                int maxPhi      = phiTheta[2];
                int maxTheta    = phiTheta[3]; */
            double[] minmax = new double[4];
            minmax[0] = double.MaxValue;
            minmax[1] = double.MaxValue;
            minmax[2] = double.MinValue;
            minmax[3] = double.MinValue;

            double  minX = double.MaxValue, maxX = double.MinValue, minY = double.MaxValue,
                    maxY = double.MinValue, minZ = double.MaxValue, maxZ = double.MinValue, meanX = 0, meanY = 0, meanZ = 0;

            for(int k=0; k < f.numberOfVertices; k++)
            {
                Vec3D vec = v[f.vertices[k]];
                updateMinMaxMeanXYZ(ref minX,ref maxX,ref meanX,vec.x,ref minY,ref maxY,ref meanY,vec.y,ref minZ,ref maxZ,ref meanZ,vec.z,k);
                double phi, theta;
                phi = System.Math.Atan2(vec.y, vec.x);
                theta = System.Math.Acos((vec.z) / (vec.length()));

                if (minmax[0] > phi)
                    minmax[0] = phi;
                if (minmax[1] > theta)
                    minmax[1] = theta;
                if (minmax[2] < phi)
                    minmax[2] = phi;
                if (minmax[3] < theta)
                    minmax[3] = theta;
            }

            /*
            //Because of the possibility of an polygon lying on all equal or close theta, the correct theta may not be found with only the points.
            //Trying to solve this here.
            Vec3D dotPoint = new Vec3D(double.NaN,double.NaN,double.NaN);
            double dotDist = double.MaxValue;

            for (int k = 0; k < f2.numberOfVertices; k++)
            {
                Vec3D a, b, edge;
                a = v[f.vertices[k]].copy().normalize();
                b = v[f.vertices[(k + 1) % f.numberOfVertices]].copy().normalize();
                edge = a.subtract(b).normalize();

                double dotO = b.dot(edge);

                if (dotO < 0.0)
                {
                    Vec3D tempPoint = b.addition(edge.times(dotO));
                    double tempDist = tempPoint.squaredLength();
                    if (dotDist > tempDist)
                    {
                        dotDist = tempDist;
                        dotPoint = tempPoint;
                    }
                }
            }

            minmax[3] = System.Math.Acos((dotPoint.z) / (dotPoint.length()));
            */

            //Check om te bepalen of de polygon in het xy vlak (z is up),
            //zo ja, check of erboven of eronder is en pas theta aan om volledig door te lopen.
            if (minX < 0 && maxX > 0 && minY < 0 && maxY > 0)
                if (meanZ > 0)
                    minmax[1] = 0;
                else
                    minmax[3] = System.Math.PI;

            return minmax;
        }