/// <summary>
        /// Factory method to get a new analysis model processor instance based on a given context.
        /// </summary>
        /// <param name="context">Model context</param>
        /// <returns>New instance of an analysis model processor.</returns>
        /// <exception cref="ArgumentNullException">If context is null.</exception>
        /// <exception cref="AnalysisModelContextNotSupportedException">If context is not supported.</exception>
        public static AnalysisModelProcessor GetAnalysisModelProcessor(IMgaModel context)
        {
            if (context == null)
            {
                throw new ArgumentNullException("context");
            }

            AnalysisModelProcessor analysisModelProcessor = null;
            if (context.MetaBase.Name == typeof(CyPhy.ParametricExploration).Name)
            {
                analysisModelProcessor = new ParametricExplorationProcessor(CyPhyClasses.ParametricExploration.Cast(context));
            }
            else if (context.MetaBase.Name == typeof(CyPhy.TestBenchSuite).Name)
            {
                analysisModelProcessor = new TestBenchSuiteProcessor(CyPhyClasses.TestBenchSuite.Cast(context));
            }
            else if (TestBenchTypeProcessor.SupportedTestBenchTypes.Contains(context.MetaBase.Name))
            {
                if (context.Meta.Name == typeof(CyPhy.CFDTestBench).Name)
                {
                    string[] openFoamKinds = new string[] {
                        typeof(CyPhy.CalmWaterSolverSettings).Name,
                        typeof(CyPhy.CorrelationSettings).Name,
                        typeof(CyPhy.WaveResistanceSolverSettings).Name };
                    if (context.ChildFCOs.Cast<MgaFCO>().Any(fco => openFoamKinds.Contains(fco.Meta.Name)))
                    {
                        analysisModelProcessor = new MultiJobRunProcessor(CyPhyClasses.CFDTestBench.Cast(context));
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(CyPhyClasses.TestBenchType.Cast(context));
                    }
                }
                else if (context.Meta.Name == typeof(CyPhy.BlastTestBench).Name)
                {
                    var blastTestBench = CyPhyClasses.BlastTestBench.Cast(context);
                    int tierLevel = (int)blastTestBench.Attributes.BlastTier;
                    int tierThresholdForMuliJobRun = (int)CyPhyClasses.BlastTestBench.AttributesClass.BlastTier_enum._2;

                    if (tierLevel > tierThresholdForMuliJobRun)
                    {
                        // use MultiJobRunProcessor if the current tier level is greater than the defined threshold
                        analysisModelProcessor = new MultiJobRunProcessor(blastTestBench);
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(blastTestBench);
                    }
                }
                else if (context.Meta.Name == typeof(CyPhy.BallisticTestBench).Name)
                {
                    var ballisticTestBench = CyPhyClasses.BallisticTestBench.Cast(context);
                    int tierLevel = (int)ballisticTestBench.Attributes.Tier;
                    int tierThresholdForMuliJobRun = (int)CyPhyClasses.BallisticTestBench.AttributesClass.Tier_enum._2;

                    if (tierLevel > tierThresholdForMuliJobRun)
                    {
                        // use MultiJobRunProcessor if the current tier level is greater than the defined threshold
                        analysisModelProcessor = new MultiJobRunProcessor(ballisticTestBench);
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(ballisticTestBench);
                    }
                }
                else
                {
                    // test bench type
                    analysisModelProcessor = new TestBenchTypeProcessor(CyPhyClasses.TestBenchType.Cast(context));
                }
            }
            else
            {
                throw new AnalysisModelContextNotSupportedException(string.Format("{0} does not supported", context.MetaBase.Name));
            }

            analysisModelProcessor.OriginalCurrentFCOName = context.Name;
            return analysisModelProcessor;
        }
Esempio n. 2
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        /// <summary>
        /// Factory method to get a new analysis model processor instance based on a given context.
        /// </summary>
        /// <param name="context">Model context</param>
        /// <returns>New instance of an analysis model processor.</returns>
        /// <exception cref="ArgumentNullException">If context is null.</exception>
        /// <exception cref="AnalysisModelContextNotSupportedException">If context is not supported.</exception>
        public static AnalysisModelProcessor GetAnalysisModelProcessor(IMgaModel context)
        {
            if (context == null)
            {
                throw new ArgumentNullException("context");
            }

            AnalysisModelProcessor analysisModelProcessor = null;

            if (context.MetaBase.Name == typeof(CyPhy.ParametricExploration).Name)
            {
                analysisModelProcessor = new ParametricExplorationProcessor(CyPhyClasses.ParametricExploration.Cast(context));
            }
            else if (context.MetaBase.Name == typeof(CyPhy.TestBenchSuite).Name)
            {
                analysisModelProcessor = new TestBenchSuiteProcessor(CyPhyClasses.TestBenchSuite.Cast(context));
            }
            else if (TestBenchTypeProcessor.SupportedTestBenchTypes.Contains(context.MetaBase.Name))
            {
                if (context.Meta.Name == typeof(CyPhy.CFDTestBench).Name)
                {
                    string[] openFoamKinds = new string[] {
                        typeof(CyPhy.CalmWaterSolverSettings).Name,
                        typeof(CyPhy.CorrelationSettings).Name,
                        typeof(CyPhy.WaveResistanceSolverSettings).Name
                    };
                    if (context.ChildFCOs.Cast <MgaFCO>().Any(fco => openFoamKinds.Contains(fco.Meta.Name)))
                    {
                        analysisModelProcessor = new MultiJobRunProcessor(CyPhyClasses.CFDTestBench.Cast(context));
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(CyPhyClasses.TestBenchType.Cast(context));
                    }
                }
                else if (context.Meta.Name == typeof(CyPhy.BlastTestBench).Name)
                {
                    var blastTestBench             = CyPhyClasses.BlastTestBench.Cast(context);
                    int tierLevel                  = (int)blastTestBench.Attributes.BlastTier;
                    int tierThresholdForMuliJobRun = (int)CyPhyClasses.BlastTestBench.AttributesClass.BlastTier_enum._2;

                    if (tierLevel > tierThresholdForMuliJobRun)
                    {
                        // use MultiJobRunProcessor if the current tier level is greater than the defined threshold
                        analysisModelProcessor = new MultiJobRunProcessor(blastTestBench);
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(blastTestBench);
                    }
                }
                else if (context.Meta.Name == typeof(CyPhy.BallisticTestBench).Name)
                {
                    var ballisticTestBench         = CyPhyClasses.BallisticTestBench.Cast(context);
                    int tierLevel                  = (int)ballisticTestBench.Attributes.Tier;
                    int tierThresholdForMuliJobRun = (int)CyPhyClasses.BallisticTestBench.AttributesClass.Tier_enum._2;

                    if (tierLevel > tierThresholdForMuliJobRun)
                    {
                        // use MultiJobRunProcessor if the current tier level is greater than the defined threshold
                        analysisModelProcessor = new MultiJobRunProcessor(ballisticTestBench);
                    }
                    else
                    {
                        analysisModelProcessor = new TestBenchTypeProcessor(ballisticTestBench);
                    }
                }
                else
                {
                    // test bench type
                    analysisModelProcessor = new TestBenchTypeProcessor(CyPhyClasses.TestBenchType.Cast(context));
                }
            }
            else
            {
                throw new AnalysisModelContextNotSupportedException(string.Format("{0} does not supported", context.MetaBase.Name));
            }

            analysisModelProcessor.OriginalCurrentFCOName = context.Name;
            return(analysisModelProcessor);
        }