Exemple #1
0
        /// <summary>
        /// base matrix assembly
        /// </summary>
        /// <typeparam name="T"></typeparam>
        /// <param name="OpMatrix"></param>
        /// <param name="OpAffine"></param>
        /// <param name="RowMapping"></param>
        /// <param name="ColMapping"></param>
        /// <param name="CurrentState"></param>
        /// <param name="ParamsMap"></param>
        /// <param name="AgglomeratedCellLengthScales"></param>
        /// <param name="time"></param>
        public void AssembleMatrix <T>(BlockMsrMatrix OpMatrix, double[] OpAffine,
                                       UnsetteledCoordinateMapping RowMapping, UnsetteledCoordinateMapping ColMapping,
                                       IEnumerable <T> CurrentState, IList <DGField> ParamsMap, Dictionary <SpeciesId, MultidimensionalArray> AgglomeratedCellLengthScales,
                                       double time) where T : DGField
        {
            // checks
            if (ColMapping.BasisS.Count != m_XOp.DomainVar.Count)
            {
                throw new ArgumentException();
            }
            if (RowMapping.BasisS.Count != m_XOp.CodomainVar.Count)
            {
                throw new ArgumentException();
            }
            if (OpMatrix == null && CurrentState == null)
            {
                throw new ArgumentException();
            }

            SpeciesId[] SpcToCompute = AgglomeratedCellLengthScales.Keys.ToArray();

            if (OpMatrix != null)
            {
                XSpatialOperatorMk2.XEvaluatorLinear mtxBuilder = m_XOp.GetMatrixBuilder(LsTrk, ColMapping, ParamsMap, RowMapping, SpcToCompute);

                foreach (var kv in AgglomeratedCellLengthScales)
                {
                    mtxBuilder.SpeciesOperatorCoefficients[kv.Key].CellLengthScales = kv.Value;
                }

                mtxBuilder.time = time;

                mtxBuilder.ComputeMatrix(OpMatrix, OpAffine);
            }
            else
            {
                XSpatialOperatorMk2.XEvaluatorNonlin eval = m_XOp.GetEvaluatorEx(this.LsTrk,
                                                                                 CurrentState.ToArray(), ParamsMap, RowMapping,
                                                                                 SpcToCompute);

                foreach (var kv in AgglomeratedCellLengthScales)
                {
                    eval.SpeciesOperatorCoefficients[kv.Key].CellLengthScales = kv.Value;
                }

                eval.time = time;

                eval.Evaluate(1.0, 1.0, OpAffine);
            }
        }
Exemple #2
0
        private void AssembleMatrix(double MU_A, double MU_B, out BlockMsrMatrix M, out double[] b, out MultiphaseCellAgglomerator agg, out MassMatrixFactory massFact)
        {
            using (var tr = new FuncTrace()) {
                // create operator
                // ===============

                if (this.Control.SetDefaultDiriBndCnd)
                {
                    this.Control.xLaplaceBCs.g_Diri      = ((CommonParamsBnd inp) => 0.0);
                    this.Control.xLaplaceBCs.IsDirichlet = (inp => true);
                }

                double D                  = this.GridData.SpatialDimension;
                int    p                  = u.Basis.Degree;
                double penalty_base       = (p + 1) * (p + D) / D;
                double penalty_multiplyer = base.Control.penalty_multiplyer;

                XQuadFactoryHelper.MomentFittingVariants momentFittingVariant;
                if (D == 3)
                {
                    momentFittingVariant = XQuadFactoryHelper.MomentFittingVariants.Classic;
                }

                momentFittingVariant = this.Control.CutCellQuadratureType;

                int order = this.u.Basis.Degree * 2;

                Op = new XSpatialOperatorMk2(1, 1, (A, B, C) => order, this.LsTrk.SpeciesNames, "u", "c1");
                var lengthScales = ((BoSSS.Foundation.Grid.Classic.GridData)GridData).Cells.PenaltyLengthScales;
                var lap          = new XLaplace_Bulk(this.LsTrk, penalty_multiplyer * penalty_base, "u", this.Control.xLaplaceBCs, 1.0, MU_A, MU_B, lengthScales, this.Control.ViscosityMode);
                Op.EquationComponents["c1"].Add(lap);                                                                                          // Bulk form
                Op.EquationComponents["c1"].Add(new XLaplace_Interface(this.LsTrk, MU_A, MU_B, penalty_base * 2, this.Control.ViscosityMode)); // coupling form

                Op.Commit();

                // create agglomeration
                // ====================

                var map = new UnsetteledCoordinateMapping(u.Basis);

                //agg = new MultiphaseCellAgglomerator(
                //    new CutCellMetrics(momentFittingVariant,
                //        QuadOrderFunc.SumOfMaxDegrees(RoundUp: true)(map.BasisS.Select(bs => bs.Degree).ToArray(), new int[0], map.BasisS.Select(bs => bs.Degree).ToArray()),
                //        //this.HMFDegree,
                //        LsTrk, this.LsTrk.SpeciesIdS.ToArray()),
                //    this.Control.AgglomerationThreshold, false);
                agg = LsTrk.GetAgglomerator(this.LsTrk.SpeciesIdS.ToArray(), order, this.Control.AgglomerationThreshold);

                // compute matrix
                // =============
                using (new BlockTrace("XdgMatrixAssembly", tr)) {
                    M = new BlockMsrMatrix(map, map);
                    b = new double[M.RowPartitioning.LocalLength];

                    //Op.ComputeMatrixEx(LsTrk,
                    //    map, null, map,
                    //    M, b, false, 0.0, true,
                    //    agg.CellLengthScales, null, null, //out massFact,
                    //    this.LsTrk.SpeciesIdS.ToArray());
                    XSpatialOperatorMk2.XEvaluatorLinear mtxBuilder = Op.GetMatrixBuilder(this.LsTrk, map, null, map);

                    mtxBuilder.CellLengthScales.AddRange(agg.CellLengthScales);

                    mtxBuilder.time           = 0.0;
                    mtxBuilder.MPITtransceive = true;
                    mtxBuilder.ComputeMatrix(M, b);
                }
                // compare with linear evaluation
                // ==============================

                DGField[]        testDomainFieldS = map.BasisS.Select(bb => new XDGField(bb as XDGBasis)).ToArray();
                CoordinateVector test             = new CoordinateVector(testDomainFieldS);

                DGField[]        errFieldS = map.BasisS.Select(bb => new XDGField(bb as XDGBasis)).ToArray();
                CoordinateVector Err       = new CoordinateVector(errFieldS);

                var eval = Op.GetEvaluatorEx(LsTrk,
                                             testDomainFieldS, null, map);

                eval.CellLengthScales.AddRange(agg.CellLengthScales);

                eval.time = 0.0;
                int    L = test.Count;
                Random r = new Random();
                for (int i = 0; i < L; i++)
                {
                    test[i] = r.NextDouble();
                }



                double[] R1 = new double[L];
                double[] R2 = new double[L];
                eval.Evaluate(1.0, 1.0, R1);

                R2.AccV(1.0, b);
                M.SpMV(1.0, test, 1.0, R2);

                Err.AccV(+1.0, R1);
                Err.AccV(-1.0, R2);

                double ErrDist = GenericBlas.L2DistPow2(R1, R2).MPISum().Sqrt();

                double Ref = test.L2NormPow2().MPISum().Sqrt();

                Assert.LessOrEqual(ErrDist, Ref * 1.0e-5, "Mismatch between explicit evaluation of XDG operator and matrix.");

                // agglomeration wahnsinn
                // ======================

                agg.ManipulateMatrixAndRHS(M, b, map, map);

                foreach (var S in this.LsTrk.SpeciesNames)
                {
                    Console.WriteLine("  Species {0}: no of agglomerated cells: {1}",
                                      S, agg.GetAgglomerator(this.LsTrk.GetSpeciesId(S)).AggInfo.SourceCells.NoOfItemsLocally);
                }


                // mass matrix factory
                // ===================

                Basis maxB = map.BasisS.ElementAtMax(bss => bss.Degree);
                //massFact = new MassMatrixFactory(maxB, agg);
                massFact = LsTrk.GetXDGSpaceMetrics(this.LsTrk.SpeciesIdS.ToArray(), order).MassMatrixFactory;
            }
        }