Esempio n. 1
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 //等しいか判定
 public static bool Ecoal(Vector3D A, Vector3D B)
 {
     if (A.X == B.X && A.Y == B.Y && A.Z == B.Z)
         return true;
     else
         return false;
 }
Esempio n. 2
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 //誤差の範囲内かを判定
 public static bool NearlyEcoal(Vector3D A, Vector3D B, float errorrange)
 {
     if (Math.Abs(A.X - B.X) < errorrange && Math.Abs(A.Y - B.Y) < errorrange && Math.Abs(A.Z - B.Z) < errorrange)
         return true;
     else
         return false;
 }
Esempio n. 3
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        float w, h; //w:幅, h:高さ

        #endregion Fields

        #region Constructors

        //コンストラクタ
        public osCamera()
        {
            Upward = new Vector3D();
            Setposition = new Vector3D();
            LookatPoint = new Vector3D();
            CameraX = new Vector3D();
            CameraY = new Vector3D();
            CameraZ = new Vector3D();
            Light = new Vector3D();
            rotatematrix = new Matrix(3);
            projectionmatrix = new Matrix(3);
            Upward.X = 0.0f;
            Upward.Y = 0.0f;
            Upward.Z = 1.0f;
            Setposition.X = 100.0f;
            Setposition.Y = 300.0f;
            Setposition.Z = 100.0f;
            LookatPoint.X = 0.0f;
            LookatPoint.Y = 0.0f;
            LookatPoint.Z = 0.0f;
            temp2 = new Vector3D(-Setposition.X, -Setposition.Y, LookatPoint.Z);
            r = Setposition.Getnorm();
            alpha = Math.Atan(Setposition.Y / Setposition.X);
            beta = Math.Asin((double)Setposition.Z / r);
            Light.X = 50.0f;
            Light.Y = 60.0f;
            Light.Z = 100.0f;
            angle = Math.PI / 3.0;
            aspect = 1.0f;
            nearZ = 10.0f;
            farZ = 20.0f;
        }
Esempio n. 4
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        //ベクトル*行列
        public static Vector3D operator *(Vector3D A, Matrix B)
        {
            Vector3D temp = new Vector3D();

            temp.X = A.X * B.matrix[0, 0] + A.Y * B.matrix[1, 0] + A.Z * B.matrix[2, 0];
            temp.Y = A.X * B.matrix[0, 1] + A.Y * B.matrix[1, 1] + A.Z * B.matrix[2, 1];
            temp.Z = A.X * B.matrix[0, 2] + A.Y * B.matrix[1, 2] + A.Z * B.matrix[2, 2];

            return temp;
        }
Esempio n. 5
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 //コンストラクタ(引数:3D座標)
 public Vertex(float x, float y, float z)
 {
     center2D = new Vector2D();
     center3D = new Vector3D(x, y, z);
     brush = new SolidBrush(Color.Black);
     isSelected = false;
     willSelected = false;
     viewOK = false;
     diameter = 8;
     neighbor = new List<Vertex>();
     nearlyNeighbor = new List<Vertex>();
 }
Esempio n. 6
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        int vertices_num; //頂点数

        #endregion Fields

        #region Constructors

        //コンストラクタ
        public osPolygon(int i)
        {
            FaceNum = i;
            isVisible = false;
            start_vertex = new Vertex(0, 0);
            end_vertex = new Vertex(0, 0);
            vertex = new List<Vertex>();
            edge = new List<Edge>();
            nowbrush = new SolidBrush(Color.Red);
            basebrush = new SolidBrush(Color.Red);
            vertices_num = 0;
            isOpened = false;
            center = new Vector3D(0, 0, 0);
            normal = new Vector3D();
        }
Esempio n. 7
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 //座標を設定
 public Vector3D(Vector3D vtr3D)
 {
     this.Set(vtr3D.X, vtr3D.Y, vtr3D.Z);
 }
Esempio n. 8
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 //2つのベクトルの距離を取得
 public float Getdistance(Vector3D A)
 {
     return (A - this).Getnorm();
 }
Esempio n. 9
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 //軸回転行列の生成
 public void Set_Rotate_ArbAx(Vector3D n, double angle)
 {
     this.matrix[0, 0] = (float)(n.X * n.X + (1 - n.X * n.X) * Math.Cos(angle));
     this.matrix[1, 0] = (float)(n.X * n.Y * (1 - Math.Cos(angle)) - n.Z * Math.Sin(angle));
     this.matrix[2, 0] = (float)(n.Z * n.X * (1 - Math.Cos(angle)) + n.Y * Math.Sin(angle));
     this.matrix[0, 1] = (float)(n.X * n.Y * (1 - Math.Cos(angle)) + n.Z * Math.Sin(angle));
     this.matrix[1, 1] = (float)(n.Y * n.Y + (1 - n.Y * n.Y) * Math.Cos(angle));
     this.matrix[2, 1] = (float)(n.Y * n.Z * (1 - Math.Cos(angle)) - n.X * Math.Sin(angle));
     this.matrix[0, 2] = (float)(n.Z * n.X * (1 - Math.Cos(angle)) - n.Y * Math.Sin(angle));
     this.matrix[1, 2] = (float)(n.Y * n.Z * (1 - Math.Cos(angle)) + n.X * Math.Sin(angle));
     this.matrix[2, 2] = (float)(n.Z * n.Z + (1 - n.Z * n.Z) * Math.Cos(angle));
 }
Esempio n. 10
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        //正八面体を生成
        private void SetOctahedron(float length)
        {
            Face3D.Clear();
            Dual.Clear();

            Vector3D[] Vtemp = new Vector3D[6];
            osPolygon Ptemp;

            for (int i = 0; i < 6; i++)
                Vtemp[i] = new Vector3D();

            Vtemp[0].Set(0.0f, 0.0f, length / (float)Math.Sqrt(2.0));
            Vtemp[1].Set(length / 2, length / 2, 0.0f);
            Vtemp[2].Set(-length / 2, length / 2, 0.0f);
            Vtemp[3].Set(-length / 2, -length / 2, 0.0f);
            Vtemp[4].Set(length / 2, -length / 2, 0.0f);
            Vtemp[5].Set(0.0f, 0.0f, -length / (float)Math.Sqrt(2.0));

            Ptemp = new osPolygon(0);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[2]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(1);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[3]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(2);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[4]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(3);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[1]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(4);
            Ptemp.AddVertex(Vtemp[5]);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[1]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(5);
            Ptemp.AddVertex(Vtemp[5]);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[2]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(6);
            Ptemp.AddVertex(Vtemp[5]);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[3]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(7);
            Ptemp.AddVertex(Vtemp[5]);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[4]);
            Face3D.Add(Ptemp);

            List<Vector3D> temp = new List<Vector3D>();

            for (int i = 0; i < Face3D.Count; i++)
            {
                Face3D[i].SetCenter();
                temp.Add(Face3D[i].center);
            }

            for (int i = 0; i < temp.Count; i++)
                Dual.Add(new Vertex(temp[i].X, temp[i].Y, temp[i].Z));

            Dual[0].SetNeighbor(Dual[4]);
            Dual[0].SetNeighbor(Dual[1]);
            Dual[0].SetNeighbor(Dual[3]);

            Dual[1].SetNeighbor(Dual[5]);
            Dual[1].SetNeighbor(Dual[0]);
            Dual[1].SetNeighbor(Dual[2]);

            Dual[2].SetNeighbor(Dual[6]);
            Dual[2].SetNeighbor(Dual[1]);
            Dual[2].SetNeighbor(Dual[3]);

            Dual[3].SetNeighbor(Dual[7]);
            Dual[3].SetNeighbor(Dual[0]);
            Dual[3].SetNeighbor(Dual[2]);

            Dual[4].SetNeighbor(Dual[0]);
            Dual[4].SetNeighbor(Dual[5]);
            Dual[4].SetNeighbor(Dual[7]);

            Dual[5].SetNeighbor(Dual[1]);
            Dual[5].SetNeighbor(Dual[4]);
            Dual[5].SetNeighbor(Dual[6]);

            Dual[6].SetNeighbor(Dual[2]);
            Dual[6].SetNeighbor(Dual[5]);
            Dual[6].SetNeighbor(Dual[7]);

            Dual[7].SetNeighbor(Dual[3]);
            Dual[7].SetNeighbor(Dual[4]);
            Dual[7].SetNeighbor(Dual[6]);
        }
Esempio n. 11
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 //任意の点の回転
 public void RotatePoint(Vector3D n, ref Vector3D v, float a)
 {
     rotatematrix.Set_Rotate_ArbAx(n, a);
     v = v * rotatematrix;
 }
Esempio n. 12
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        //可視判定
        public double Hidden(Vector3D vtr3D)
        {
            Vector3D vector1 = new Vector3D();
            Vector3D vector2 = new Vector3D();
            Vector3D outer = new Vector3D();
            Vector3D S = new Vector3D();
            double cos;

            vector1 = vertex[2].center3D - vertex[0].center3D;
            vector2 = vertex[1].center3D - vertex[0].center3D;
            outer = Vector3D.Outer(vector1, vector2);

            S = vertex[0].center3D - vtr3D;

            outer.Normalization();
            S.Normalization();

            cos = Vector3D.Inner(S, outer);

            if (cos < 0)
            {
                outer = Vector3D.Outer(vector2, vector1);

                outer.Normalization();
                S.Normalization();

                cos = Vector3D.Inner(S, outer);
            }

            return cos;
        }
Esempio n. 13
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        //正十二面体を生成
        private void SetDodecahedron(float length)
        {
            SetIcosahedron(length);

            List<Vector3D> temp = new List<Vector3D>();

            for (int i = 0; i < Face3D.Count; i++)
            {
                Face3D[i].SetCenter();
                temp.Add(Face3D[i].center);
            }

            Face3D.Clear();
            Dual.Clear();

            Vector3D[] Vtemp = new Vector3D[20];
            osPolygon Ptemp;

            for (int i = 0; i < 20; i++)
                Vtemp[i] = new Vector3D();

            Ptemp = new osPolygon(0);
            Ptemp.AddVertex(temp[0]);
            Ptemp.AddVertex(temp[10]);
            Ptemp.AddVertex(temp[11]);
            Ptemp.AddVertex(temp[12]);
            Ptemp.AddVertex(temp[1]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(1);
            Ptemp.AddVertex(temp[1]);
            Ptemp.AddVertex(temp[12]);
            Ptemp.AddVertex(temp[13]);
            Ptemp.AddVertex(temp[14]);
            Ptemp.AddVertex(temp[2]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(2);
            Ptemp.AddVertex(temp[2]);
            Ptemp.AddVertex(temp[14]);
            Ptemp.AddVertex(temp[15]);
            Ptemp.AddVertex(temp[16]);
            Ptemp.AddVertex(temp[3]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(3);
            Ptemp.AddVertex(temp[3]);
            Ptemp.AddVertex(temp[16]);
            Ptemp.AddVertex(temp[17]);
            Ptemp.AddVertex(temp[18]);
            Ptemp.AddVertex(temp[4]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(4);
            Ptemp.AddVertex(temp[4]);
            Ptemp.AddVertex(temp[18]);
            Ptemp.AddVertex(temp[19]);
            Ptemp.AddVertex(temp[10]);
            Ptemp.AddVertex(temp[0]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(5);
            Ptemp.AddVertex(temp[6]);
            Ptemp.AddVertex(temp[13]);
            Ptemp.AddVertex(temp[12]);
            Ptemp.AddVertex(temp[11]);
            Ptemp.AddVertex(temp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(6);
            Ptemp.AddVertex(temp[7]);
            Ptemp.AddVertex(temp[15]);
            Ptemp.AddVertex(temp[14]);
            Ptemp.AddVertex(temp[13]);
            Ptemp.AddVertex(temp[6]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(7);
            Ptemp.AddVertex(temp[8]);
            Ptemp.AddVertex(temp[17]);
            Ptemp.AddVertex(temp[16]);
            Ptemp.AddVertex(temp[15]);
            Ptemp.AddVertex(temp[7]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(8);
            Ptemp.AddVertex(temp[9]);
            Ptemp.AddVertex(temp[19]);
            Ptemp.AddVertex(temp[18]);
            Ptemp.AddVertex(temp[17]);
            Ptemp.AddVertex(temp[8]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(9);
            Ptemp.AddVertex(temp[5]);
            Ptemp.AddVertex(temp[11]);
            Ptemp.AddVertex(temp[10]);
            Ptemp.AddVertex(temp[19]);
            Ptemp.AddVertex(temp[9]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(10);
            Ptemp.AddVertex(temp[0]);
            Ptemp.AddVertex(temp[1]);
            Ptemp.AddVertex(temp[2]);
            Ptemp.AddVertex(temp[3]);
            Ptemp.AddVertex(temp[4]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(11);
            Ptemp.AddVertex(temp[9]);
            Ptemp.AddVertex(temp[8]);
            Ptemp.AddVertex(temp[7]);
            Ptemp.AddVertex(temp[6]);
            Ptemp.AddVertex(temp[5]);
            Face3D.Add(Ptemp);

            temp.Clear();

            for (int i = 0; i < Face3D.Count; i++)
            {
                Face3D[i].SetCenter();
                temp.Add(Face3D[i].center);
            }

            for (int i = 0; i < temp.Count; i++)
                Dual.Add(new Vertex(temp[i].X, temp[i].Y, temp[i].Z));

            Dual[0].SetNeighbor(Dual[10]);
            Dual[0].SetNeighbor(Dual[4]);
            Dual[0].SetNeighbor(Dual[1]);
            Dual[0].SetNeighbor(Dual[5]);
            Dual[0].SetNeighbor(Dual[9]);

            Dual[1].SetNeighbor(Dual[10]);
            Dual[1].SetNeighbor(Dual[0]);
            Dual[1].SetNeighbor(Dual[2]);
            Dual[1].SetNeighbor(Dual[6]);
            Dual[1].SetNeighbor(Dual[5]);

            Dual[2].SetNeighbor(Dual[10]);
            Dual[2].SetNeighbor(Dual[1]);
            Dual[2].SetNeighbor(Dual[3]);
            Dual[2].SetNeighbor(Dual[7]);
            Dual[2].SetNeighbor(Dual[6]);

            Dual[3].SetNeighbor(Dual[10]);
            Dual[3].SetNeighbor(Dual[2]);
            Dual[3].SetNeighbor(Dual[4]);
            Dual[3].SetNeighbor(Dual[8]);
            Dual[3].SetNeighbor(Dual[7]);

            Dual[4].SetNeighbor(Dual[10]);
            Dual[4].SetNeighbor(Dual[3]);
            Dual[4].SetNeighbor(Dual[0]);
            Dual[4].SetNeighbor(Dual[9]);
            Dual[4].SetNeighbor(Dual[8]);

            Dual[5].SetNeighbor(Dual[11]);
            Dual[5].SetNeighbor(Dual[9]);
            Dual[5].SetNeighbor(Dual[6]);
            Dual[5].SetNeighbor(Dual[0]);
            Dual[5].SetNeighbor(Dual[1]);

            Dual[6].SetNeighbor(Dual[11]);
            Dual[6].SetNeighbor(Dual[5]);
            Dual[6].SetNeighbor(Dual[7]);
            Dual[6].SetNeighbor(Dual[1]);
            Dual[6].SetNeighbor(Dual[2]);

            Dual[7].SetNeighbor(Dual[11]);
            Dual[7].SetNeighbor(Dual[6]);
            Dual[7].SetNeighbor(Dual[8]);
            Dual[7].SetNeighbor(Dual[2]);
            Dual[7].SetNeighbor(Dual[3]);

            Dual[8].SetNeighbor(Dual[11]);
            Dual[8].SetNeighbor(Dual[7]);
            Dual[8].SetNeighbor(Dual[9]);
            Dual[8].SetNeighbor(Dual[3]);
            Dual[8].SetNeighbor(Dual[4]);

            Dual[9].SetNeighbor(Dual[11]);
            Dual[9].SetNeighbor(Dual[8]);
            Dual[9].SetNeighbor(Dual[5]);
            Dual[9].SetNeighbor(Dual[4]);
            Dual[9].SetNeighbor(Dual[0]);

            Dual[10].SetNeighbor(Dual[0]);
            Dual[10].SetNeighbor(Dual[1]);
            Dual[10].SetNeighbor(Dual[2]);
            Dual[10].SetNeighbor(Dual[3]);
            Dual[10].SetNeighbor(Dual[4]);

            Dual[11].SetNeighbor(Dual[5]);
            Dual[11].SetNeighbor(Dual[6]);
            Dual[11].SetNeighbor(Dual[7]);
            Dual[11].SetNeighbor(Dual[8]);
            Dual[11].SetNeighbor(Dual[9]);
        }
Esempio n. 14
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        //スクリーン座標変換
        public Vector3D ViewTranslate(Vector3D A)
        {
            Vector3D P = new Vector3D();

            P.X = Vector3D.Inner(A, CameraX) - Vector3D.Inner(Setposition, CameraX);
            P.Y = Vector3D.Inner(A, CameraY) - Vector3D.Inner(Setposition, CameraY);
            P.Z = Vector3D.Inner(A, CameraZ) - Vector3D.Inner(Setposition, CameraZ);

            return P;
        }
Esempio n. 15
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        //ビューポート変換
        public Vector2D ViewPortTranslate(Vector3D A)
        {
            Vector2D P = new Vector2D();

            P.X = (float)(A.X * (w / 2) + (w / 2));
            P.Y = (float)(A.Y * -(h / 2) + (h / 2));

            return P;
        }
Esempio n. 16
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        //一括座標変換(関数オーバロード)
        public Vector2D Translate(Vector3D A)
        {
            Vector3D P = new Vector3D();
            Vector2D R = new Vector2D();

            P = ViewTranslate(A);
            P = ProjectionTranslate(P);
            R = ViewPortTranslate(P);

            return R;
        }
Esempio n. 17
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        //一括座標変換(関数オーバロード)
        public Vertex[] Translate(Vertex[] A)
        {
            int len = A.Length;

            Vector3D[] P = new Vector3D[len];
            Vector2D[] R = new Vector2D[len];
            Vector3D[] Pt = new Vector3D[len];
            Vertex[] Rt = new Vertex[len];
            for (int i = 0; i < len; i++)
            {
                P[i] = new Vector3D();
                R[i] = new Vector2D();
                Pt[i] = new Vector3D();
                Rt[i] = new Vertex(0, 0);
            }

            for (int i = 0; i < len; i++)
            {
                Pt[i] = A[i].center3D;
            }

            for (int i = 0; i < len; i++)
            {
                P[i] = ViewTranslate(Pt[i]);
                P[i] = ProjectionTranslate(P[i]);
                R[i] = ViewPortTranslate(P[i]);
            }

            for (int i = 0; i < len; i++)
            {
                Rt[i].center3D = Pt[i];
                Rt[i].center2D = R[i];
            }

            return Rt;
        }
Esempio n. 18
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        //一括座標変換
        public Vector2D[] Translate(Vector3D[] A)
        {
            int len = A.Length;

            Vector3D[] P = new Vector3D[len];
            Vector2D[] R = new Vector2D[len];
            for (int i = 0; i < len; i++)
            {
                P[i] = new Vector3D();
                R[i] = new Vector2D();
            }

            for (int i = 0; i < len; i++)
            {
                P[i] = ViewTranslate(A[i]);
                P[i] = ProjectionTranslate(P[i]);
                R[i] = ViewPortTranslate(P[i]);
            }

            return R;
        }
Esempio n. 19
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        //カメラ座標の設定
        public void SetCaemraAxes()
        {
            CameraZ = LookatPoint - Setposition;
            CameraZ.Normalization();

            CameraX = Vector3D.Outer(Upward, CameraZ);
            CameraX.Normalization();

            CameraY = Vector3D.Outer(CameraZ, CameraX);
        }
Esempio n. 20
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        //正二十面体を生成
        private void SetIcosahedron(float length)
        {
            Face3D.Clear();
            Dual.Clear();

            Vector3D[] Vtemp = new Vector3D[12];
            osPolygon Ptemp;
            Vector2D temp1 = new Vector2D();
            double Ztemp1, Ztemp2;

            for (int i = 0; i < 12; i++)
                Vtemp[i] = new Vector3D();

            Ztemp1 = (length / (2.0 * Math.Sin(Math.PI / 5.0)));

            Ztemp1 = Math.Sqrt(length * length - Ztemp1 * Ztemp1);

            Ztemp2 = Math.Sqrt((length * Math.Cos(Math.PI / 6.0)) * (length * Math.Cos(Math.PI / 6.0)) - (length / (2 * Math.Sin(Math.PI / 5.0)) - length / (2 * Math.Tan(Math.PI / 5.0))) * (length / (2 * Math.Sin(Math.PI / 5.0)) - length / (2 * Math.Tan(Math.PI / 5.0))));
            Ztemp2 /= 2.0;

            Vtemp[0].Set((float)(length / (2 * Math.Sin(Math.PI / 5))), 0.0f, (float)Ztemp2);

            for (int i = 1; i < 5; i++)
            {
                temp1.X = (float)(Vtemp[0].X * Math.Cos(2 * i * Math.PI / 5.0) - Vtemp[0].Y * Math.Sin(2 * i * Math.PI / 5.0));
                temp1.Y = (float)(Vtemp[0].X * Math.Sin(2 * i * Math.PI / 5.0) + Vtemp[0].Y * Math.Cos(2 * i * Math.PI / 5.0));
                Vtemp[i].Set(temp1.X, temp1.Y, (float)Ztemp2);
            }

            Vtemp[5].Set(0.0f, 0.0f, (float)(Ztemp1 + Ztemp2));

            Vtemp[6].Set((float)(length / (2 * Math.Sin(Math.PI / 5))), 0.0f, -(float)Ztemp2);

            temp1.X = (float)(Vtemp[6].X * Math.Cos(Math.PI / 5.0) - Vtemp[6].Y * Math.Sin(Math.PI / 5.0));
            temp1.Y = (float)(Vtemp[6].X * Math.Sin(Math.PI / 5.0) + Vtemp[6].Y * Math.Cos(Math.PI / 5.0));
            Vtemp[6].Set(temp1.X, temp1.Y, -(float)Ztemp2);

            for (int i = 7; i < 11; i++)
            {
                temp1.X = (float)(Vtemp[6].X * Math.Cos(2 * (i - 6) * Math.PI / 5) - Vtemp[6].Y * Math.Sin(2 * (i - 6) * Math.PI / 5));
                temp1.Y = (float)(Vtemp[6].X * Math.Sin(2 * (i - 6) * Math.PI / 5) + Vtemp[6].Y * Math.Cos(2 * (i - 6) * Math.PI / 5));
                Vtemp[i].Set(temp1.X, temp1.Y, -(float)Ztemp2);
            }

            Vtemp[11].Set(0.0f, 0.0f, -(float)(Ztemp1 + Ztemp2));

            Ptemp = new osPolygon(0);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(1);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(2);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(3);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(4);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[5]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(5);
            Ptemp.AddVertex(Vtemp[7]);
            Ptemp.AddVertex(Vtemp[6]);
            Ptemp.AddVertex(Vtemp[11]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(6);
            Ptemp.AddVertex(Vtemp[8]);
            Ptemp.AddVertex(Vtemp[7]);
            Ptemp.AddVertex(Vtemp[11]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(7);
            Ptemp.AddVertex(Vtemp[9]);
            Ptemp.AddVertex(Vtemp[8]);
            Ptemp.AddVertex(Vtemp[11]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(8);
            Ptemp.AddVertex(Vtemp[10]);
            Ptemp.AddVertex(Vtemp[9]);
            Ptemp.AddVertex(Vtemp[11]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(9);
            Ptemp.AddVertex(Vtemp[6]);
            Ptemp.AddVertex(Vtemp[10]);
            Ptemp.AddVertex(Vtemp[11]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(10);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[6]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(11);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[6]);
            Ptemp.AddVertex(Vtemp[7]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(12);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[1]);
            Ptemp.AddVertex(Vtemp[7]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(13);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[7]);
            Ptemp.AddVertex(Vtemp[8]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(14);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[2]);
            Ptemp.AddVertex(Vtemp[8]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(15);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[8]);
            Ptemp.AddVertex(Vtemp[9]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(16);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[3]);
            Ptemp.AddVertex(Vtemp[9]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(17);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[9]);
            Ptemp.AddVertex(Vtemp[10]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(18);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[4]);
            Ptemp.AddVertex(Vtemp[10]);
            Face3D.Add(Ptemp);

            Ptemp = new osPolygon(19);
            Ptemp.AddVertex(Vtemp[0]);
            Ptemp.AddVertex(Vtemp[10]);
            Ptemp.AddVertex(Vtemp[6]);
            Face3D.Add(Ptemp);

            List<Vector3D> temp = new List<Vector3D>();

            for (int i = 0; i < Face3D.Count; i++)
            {
                Face3D[i].SetCenter();
                temp.Add(Face3D[i].center);
            }
            for (int i = 0; i < temp.Count; i++)
                Dual.Add(new Vertex(temp[i].X, temp[i].Y, temp[i].Z));

            Dual[0].SetNeighbor(Dual[1]);
            Dual[0].SetNeighbor(Dual[4]);
            Dual[0].SetNeighbor(Dual[10]);

            Dual[1].SetNeighbor(Dual[0]);
            Dual[1].SetNeighbor(Dual[2]);
            Dual[1].SetNeighbor(Dual[12]);

            Dual[2].SetNeighbor(Dual[1]);
            Dual[2].SetNeighbor(Dual[3]);
            Dual[2].SetNeighbor(Dual[14]);

            Dual[3].SetNeighbor(Dual[2]);
            Dual[3].SetNeighbor(Dual[4]);
            Dual[3].SetNeighbor(Dual[16]);

            Dual[4].SetNeighbor(Dual[3]);
            Dual[4].SetNeighbor(Dual[0]);
            Dual[4].SetNeighbor(Dual[18]);

            Dual[5].SetNeighbor(Dual[9]);
            Dual[5].SetNeighbor(Dual[6]);
            Dual[5].SetNeighbor(Dual[11]);

            Dual[6].SetNeighbor(Dual[5]);
            Dual[6].SetNeighbor(Dual[7]);
            Dual[6].SetNeighbor(Dual[13]);

            Dual[7].SetNeighbor(Dual[6]);
            Dual[7].SetNeighbor(Dual[8]);
            Dual[7].SetNeighbor(Dual[15]);

            Dual[8].SetNeighbor(Dual[7]);
            Dual[8].SetNeighbor(Dual[9]);
            Dual[8].SetNeighbor(Dual[17]);

            Dual[9].SetNeighbor(Dual[8]);
            Dual[9].SetNeighbor(Dual[5]);
            Dual[9].SetNeighbor(Dual[19]);

            Dual[10].SetNeighbor(Dual[0]);
            Dual[10].SetNeighbor(Dual[11]);
            Dual[10].SetNeighbor(Dual[19]);

            Dual[11].SetNeighbor(Dual[5]);
            Dual[11].SetNeighbor(Dual[10]);
            Dual[11].SetNeighbor(Dual[12]);

            Dual[12].SetNeighbor(Dual[1]);
            Dual[12].SetNeighbor(Dual[11]);
            Dual[12].SetNeighbor(Dual[13]);

            Dual[13].SetNeighbor(Dual[6]);
            Dual[13].SetNeighbor(Dual[12]);
            Dual[13].SetNeighbor(Dual[14]);

            Dual[14].SetNeighbor(Dual[2]);
            Dual[14].SetNeighbor(Dual[13]);
            Dual[14].SetNeighbor(Dual[15]);

            Dual[15].SetNeighbor(Dual[7]);
            Dual[15].SetNeighbor(Dual[14]);
            Dual[15].SetNeighbor(Dual[16]);

            Dual[16].SetNeighbor(Dual[3]);
            Dual[16].SetNeighbor(Dual[15]);
            Dual[16].SetNeighbor(Dual[17]);

            Dual[17].SetNeighbor(Dual[8]);
            Dual[17].SetNeighbor(Dual[16]);
            Dual[17].SetNeighbor(Dual[18]);

            Dual[18].SetNeighbor(Dual[4]);
            Dual[18].SetNeighbor(Dual[17]);
            Dual[18].SetNeighbor(Dual[19]);

            Dual[19].SetNeighbor(Dual[9]);
            Dual[19].SetNeighbor(Dual[18]);
            Dual[19].SetNeighbor(Dual[10]);
        }
Esempio n. 21
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 public static float Inner(Vector3D A, Vector3D B)
 {
     return A.X * B.X + A.Y * B.Y + A.Z * B.Z;
 }
Esempio n. 22
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        //辺edを回転軸として面をpolのある平面上に開く
        public bool Open(Edge ed, osPolygon pol)
        {
            if (!isOpened)
            {
                Vector3D edvector = new Vector3D();
                double angle;
                Matrix rotatematrix = new Matrix(3);
                Vector3D polnormal;

                pol.SetNormal();
                polnormal = pol.normal;

                SetNormal();

                angle = Math.Acos(Vector3D.Inner(this.normal, polnormal) / (this.normal.Getnorm() * polnormal.Getnorm()));

                start_vertex = ed.vertex1;
                end_vertex = ed.vertex2;

                edvector = end_vertex.center3D - start_vertex.center3D;

                edvector.Normalization();

                rotatematrix.Set_Rotate_ArbAx(edvector, angle);

                foreach (Vertex vtx in vertex)
                    if (vtx.center3D != start_vertex.center3D && vtx.center3D != end_vertex.center3D)
                    {
                        vtx.center3D -= end_vertex.center3D;
                        vtx.center3D = vtx.center3D * rotatematrix;
                        vtx.center3D += end_vertex.center3D;
                    }

                isOpened = true;

                return true;
            }
            return false;
        }
Esempio n. 23
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        //外積
        public static Vector3D Outer(Vector3D A, Vector3D B)
        {
            Vector3D P = new Vector3D();

            P.X = A.Y * B.Z - A.Z * B.Y;
            P.Y = A.Z * B.X - A.X * B.Z;
            P.Z = A.X * B.Y - A.Y * B.X;

            return P;
        }
Esempio n. 24
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        //隠面処理
        public void HiddenRemoval(Vector3D see)
        {
            double cos;

            foreach (osPolygon pol in ViewFace3D)
            {
                cos = pol.Hidden(see);

                if (cos > 0)
                {
                    pol.SetVisible(true);
                    pol.nowbrush = new SolidBrush(Color.FromArgb((int)(pol.basebrush.Color.R * cos), (int)(pol.basebrush.Color.G * cos), (int)(pol.basebrush.Color.B * cos)));
                }
                else
                    pol.SetVisible(false);
            }
        }
Esempio n. 25
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 //頂点の挿入
 public void Insert(int index, Vector3D coord)
 {
     vertex.Insert(index, new Vertex(coord.X, coord.Y, coord.Z));
     vertices_num = vertex.Count;
 }
Esempio n. 26
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        //カメラの回転
        public void RotateCamera(double x1, double y1, double x2, double y2)
        {
            Vector2D A = new Vector2D();
            Vector3D N1 = new Vector3D();
            Vector3D N2 = new Vector3D();
            Vector3D temp = new Vector3D();

            double alpha, beta;
            float x, y, z;

            N1.X = Setposition.Y;
            N1.Y = -Setposition.X;
            N1.Z = LookatPoint.Z;

            N1.Normalization();

            N2.X = LookatPoint.X;
            N2.Y = LookatPoint.Y;
            N2.Z = 1;

            N2.Normalization();

            if (Upward.Z > 0)
            {
                A.X = (float)((x2 - x1) / w);
                A.Y = (float)((y2 - y1) / h);
            }
            if (Upward.Z < 0)
            {
                A.X = (float)((x1 - x2) / w);
                A.Y = (float)((y1 - y2) / h);
            }

            alpha = 2 * Math.PI * A.Y;
            beta = 2 * Math.PI * A.X;

            x = Setposition.X;
            y = Setposition.Y;
            z = Setposition.Z;

            rotatematrix.Set_Rotate_ArbAx(N1, alpha);

            temp = Setposition * rotatematrix;

            rotatematrix.Set_Rotate_ArbAx(N2, beta);

            temp = temp * rotatematrix;

            SetPosition(temp.X, temp.Y, temp.Z);

            if (Vector3D.Inner(temp2, Setposition - LookatPoint) > 0 && Upward.Z > 0) Upward.Z = -Upward.Z;

            if (Vector3D.Inner(temp2, Setposition - LookatPoint) < 0 && Upward.Z < 0) Upward.Z = -Upward.Z;

            if (Upward.Z > 0) temp2.Set(-Setposition.X, -Setposition.Y, LookatPoint.Z);

            if (Upward.Z < 0) temp2.Set(Setposition.X, Setposition.Y, LookatPoint.Z);
        }
Esempio n. 27
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        //面の中心を設定
        public void SetCenter()
        {
            center.Set(0, 0, 0);

            foreach (Vertex vtx in vertex)
                center += vtx.center3D;

            center = center / vertices_num;
        }
Esempio n. 28
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        //座標軸より上か判定
        public bool CheckIsUp()
        {
            Vector3D A = new Vector3D(0, 0, -1);

            return (Vector3D.Inner(A, -1 * Setposition) < 0);
        }
Esempio n. 29
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 //頂点の設定
 public void AddVertex(Vector3D coord)
 {
     vertex.Add(new Vertex(coord.X, coord.Y, coord.Z));
     vertices_num = vertex.Count;
 }
Esempio n. 30
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        //射影変換
        public Vector3D ProjectionTranslate(Vector3D A)
        {
            Vector3D P = new Vector3D();

            SetProjectionMatrix();
            P = A * projectionmatrix;

            P.Z += (farZ * nearZ) / (farZ - nearZ);

            P.X = P.X / A.Z;
            P.Y = P.Y / A.Z;
            P.Z = P.Z / A.Z;

            return P;
        }