Example #1
0
        /// <summary>
        /// get cut cells describing the boundary of this particle
        /// </summary>
        /// <param name="LsTrk"></param>
        /// <returns></returns>
        public CellMask cutCells_P(LevelSetTracker LsTrk)
        {
            // tolerance is very important
            var radiusTolerance = radius_P + LsTrk.GridDat.Cells.h_minGlobal;// +2.0*Math.Sqrt(2*LsTrk.GridDat.Cells.h_minGlobal.Pow2());

            CellMask cellCollection;
            CellMask cells = null;
            double   alpha = -(currentAng_P[0]);

            switch (m_shape)
            {
            case ParticleShape.spherical:
                cells = CellMask.GetCellMask(LsTrk.GridDat, X => (-(X[0] - currentPos_P[0][0]).Pow2() + -(X[1] - currentPos_P[0][1]).Pow2() + radiusTolerance.Pow2()) > 0);
                break;

            case ParticleShape.elliptic:
                double a = 3.0;
                double b = 1.0;
                cells = CellMask.GetCellMask(LsTrk.GridDat, X => - ((((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow2()) / length_P.Pow2()) + -(((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow2() / thickness_P.Pow2()) + radiusTolerance.Pow2() > 0);

                break;

            case ParticleShape.hippopede:
                a     = 4.0 * radiusTolerance.Pow2();
                b     = 1.0 * radiusTolerance.Pow2();
                cells = CellMask.GetCellMask(LsTrk.GridDat, X => - ((((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow(2) + ((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow(2)).Pow2() - a * ((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow2() - b * ((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow2()) > 0);
                break;

            case ParticleShape.bean:
                a     = 4.0 * radiusTolerance.Pow2();
                b     = 1.0 * radiusTolerance.Pow2();
                cells = CellMask.GetCellMask(LsTrk.GridDat, X => - ((((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow(2) + ((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow(2)).Pow2() - a * ((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow(3) - b * ((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow2()) > 0);
                break;

            case ParticleShape.squircle:
                cells = CellMask.GetCellMask(LsTrk.GridDat, X => - ((((X[0] - currentPos_P[0][0]) * Math.Cos(alpha) - (X[1] - currentPos_P[0][1]) * Math.Sin(alpha)).Pow(4) + ((X[0] - currentPos_P[0][0]) * Math.Sin(alpha) + (X[1] - currentPos_P[0][1]) * Math.Cos(alpha)).Pow(4)) - radiusTolerance.Pow(4)) > 0);
                break;


            default:
                throw new NotImplementedException("Shape is not implemented yet");
            }


            CellMask allCutCells = LsTrk.Regions.GetCutCellMask();

            cellCollection = cells.Intersect(allCutCells);
            return(cellCollection);
        }
Example #2
0
        protected override double RunSolverOneStep(int TimestepNo, double phystime, double dt)
        {
            origin.ProjectField((x, y) => (Math.Sin(x) + Math.Cos(x) + x - (Math.Cos(y) + 1)));   // 2D
            //origin.ProjectField((x, y, z) => (Math.Sin(x) + Math.Cos(x) + x - (y + 1) + Math.Sin(z))); // 3D
            //origin.ProjectField((x, y, z) => Math.Sqrt(x.Pow2() + y.Pow2() + z.Pow2()) - 1);
            //origin.ProjectField((x, y) => x * x + y * y * y - x * y);
            //origin.ProjectField((x,y) => x + y);
            //origin.ProjectField((x, y) => Math.Sin(2 * Math.PI * (x / 3.0)));


            CellMask msk2D = CellMask.GetCellMask((BoSSS.Foundation.Grid.Classic.GridData)(this.GridData), X => (X[0] > 0.0 && X[0] < 4.0 && X[1] > 0.0 && X[1] < 1.0));
            //|| (X[0] > 1.0 && X[0] < 3.0 && X[1] > 1.0 && X[1] < 2.0)
            //|| (X[0] > 2.0 && X[0] < 4.0 && X[1] > 2.0 && X[1] < 3.0)
            //|| (X[0] > 3.0 && X[0] < 4.0 && X[1] > 3.0 && X[1] < 4.0));
            //CellMask msk3D = CellMask.GetCellMask(this.GridData, X => (X[0] > 0.0 && X[0] < 3.0 && X[1] > 0.0 && X[1] < 3.0 && X[2] > 0.0 && X[2] < 1.5)
            //|| (X[0] > 0.0 && X[0] < 1.5 && X[1] > 0.0 && X[1] < 3.0 && X[2] > 0.0 && X[2] < 3.0)
            //|| (X[0] > 0.0 && X[0] < 3.0 && X[1] > 0.0 && X[1] < 1.5 && X[2] > 0.0 && X[2] < 3.0));
            CellMask test = null;

            cdgField.ProjectDGField(1.0, origin, test);
            cdgField.AccToDGField(1.0, result);

            //specField.ProjectDGField(1.0, origin, test);
            //specField.AccToDGField(1.0, specFieldDG);

            //MultidimensionalArray n4 = MultidimensionalArray.Create(3, 2);
            //n4[0, 0] = 0.3;
            //n4[0, 1] = -1;
            //n4[1, 0] = 0.6;
            //n4[1, 1] = -1;
            //n4[2, 0] = 0.9;
            //n4[2, 1] = -1;

            //MultidimensionalArray n11 = MultidimensionalArray.Create(3, 2);
            //n11[0, 0] = -0.4;
            //n11[0, 1] = 1;
            //n11[1, 0] = 0.2;
            //n11[1, 1] = 1;
            //n11[2, 0] = 0.8;
            //n11[2, 1] = 1;

            //NodeSet ns4 = new NodeSet(Grid.GetRefElement(0), n4);
            //NodeSet ns11 = new NodeSet(Grid.GetRefElement(0), n11);

            //MultidimensionalArray res4 = MultidimensionalArray.Create(1, 3);
            //MultidimensionalArray res11 = MultidimensionalArray.Create(1, 3);

            //result.Evaluate(4,1,ns4, res4);
            //result.Evaluate(11, 1, ns11, res11);



            PlotCurrentState(0.0, 0, 4);

            //var err = origin.CloneAs();
            //err.Acc(-1.0, result);

            double L2err  = 0.0; //err.L2Norm();
            double L2jump = JumpNorm(result, test);

            Console.WriteLine("");
            //double L2jump_specFEM = JumpNorm(specFieldDG, test);
            //Console.WriteLine("L2 error =  " + L2err);
            Console.WriteLine("L2 Norm of [[u]] = " + L2jump);
            //Console.WriteLine("L2 Norm of [[u]] = " + L2jump_specFEM);
            if (L2err < 1.0e-10 && L2jump < 1.0e-12)
            {
                Console.WriteLine("Test PASSED");
                passed = true;
            }
            else
            {
                Console.WriteLine("Test FAILED");
                passed = false;
            }

            base.TerminationKey = true;
            return(0.0);
        }