public void Test_ElevationAggregator_ProcessResult_WithAggregation() { var aggregator = new ElevationStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.Height) as ClientHeightLeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; aggregator.CellSize = TestConsts.CELL_SIZE; IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); // Other aggregator... var otherAggregator = new ElevationStatisticsAggregator(); otherAggregator.CellSize = TestConsts.CELL_SIZE; otherAggregator.ProcessSubGridResult(subGrids); aggregator.AggregateWith(otherAggregator); Assert.True(aggregator.CellsScanned == dLength * 2, "Invalid value for CellsScanned."); Assert.True(aggregator.CellsUsed == dLength * 2, "Invalid value for CellsUsed."); Assert.True(Math.Abs(aggregator.CoverageArea - 2 * dLength * Math.Pow(aggregator.CellSize, 2)) < Consts.TOLERANCE_AREA, "Invalid value for CoverageArea."); Assert.True(Math.Abs(aggregator.MinElevation) < Consts.TOLERANCE_HEIGHT, "Invalid value for MinElevation."); Assert.True(Math.Abs(aggregator.MaxElevation - MAX_ELEVATION) < Consts.TOLERANCE_HEIGHT, "Invalid value for MaxElevation."); }
public void Test_NullCell() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.Temperature) as ClientTemperatureLeafSubGrid; clientGrid.Cells[0, 0] = clientGrid.NullCell(); Assert.False(clientGrid.CellHasValue(0, 0), "Cell not set to correct null value"); }
private ProgressiveVolumesCalculationsAggregator BuildFilterToFilterAggregatorWithOneAggregation(float baseLevel, float topLevel) { var subGrids = new[] { new[] { ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.ProgressiveVolumes) } }; if (!(subGrids[0][0] is ClientProgressiveHeightsLeafSubGrid progressiveSubGrid)) { throw new ArgumentException("Sub grid not a ClientProgressiveHeightsLeafSubGrid"); } progressiveSubGrid.NumberOfHeightLayers = 2; TRex.SubGridTrees.Core.Utilities.SubGridUtilities.SubGridDimensionalIterator((x, y) => progressiveSubGrid.Heights[0][x, y] = baseLevel); TRex.SubGridTrees.Core.Utilities.SubGridUtilities.SubGridDimensionalIterator((x, y) => progressiveSubGrid.Heights[1][x, y] = topLevel); var aggr = new ProgressiveVolumesCalculationsAggregator { VolumeType = VolumeComputationType.Between2Filters, AggregationStates = new[] { new ProgressiveVolumeAggregationState(SubGridTreeConsts.DefaultCellSize) } }; aggr.ProcessSubGridResult(subGrids); return(aggr); }
public void Test_NullCell() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MachineSpeedTarget) as ClientMachineTargetSpeedLeafSubGrid; clientGrid.Cells[0, 0] = clientGrid.NullCell(); Assert.False(clientGrid.CellHasValue(0, 0), "Cell not set to correct null value"); }
public void Test_CCAAggregator_ProcessResult_WithAggregation() { var aggregator = new CCAStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CCA) as ClientCCALeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; aggregator.CellSize = TestConsts.CELL_SIZE; IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); // Other aggregator... var otherAggregator = new CCAStatisticsAggregator(); otherAggregator.CellSize = TestConsts.CELL_SIZE; otherAggregator.ProcessSubGridResult(subGrids); aggregator.AggregateWith(otherAggregator); Assert.True(aggregator.SummaryCellsScanned == dLength * 2, "Invalid value for SummaryCellsScanned."); Assert.True(Math.Abs(aggregator.SummaryProcessedArea - 2 * dLength * Math.Pow(aggregator.CellSize, 2)) < Consts.TOLERANCE_DIMENSION, "Invalid value for SummaryProcessedArea."); Assert.True(aggregator.CellsScannedAtTarget == dLength * 2, "Invalid value for CellsScannedAtTarget."); Assert.True(aggregator.CellsScannedOverTarget == 0, "Invalid value for CellsScannedOverTarget."); Assert.True(aggregator.CellsScannedUnderTarget == 0, "Invalid value for CellsScannedUnderTarget."); }
public void Test_GenericClientLeafSubgrid_CellHasValue_True_Ex(GridDataType gridDataType) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); clientGrid.FillWithTestPattern(); clientGrid.ForEach((x, y) => Assert.True(clientGrid.CellHasValue(x, y), "Cell does not have value when it should")); }
public void BuildLiftsForSinglePassCell_CMVPercentChange(float[] heights, short[] cmvs) { var siteModel = DITAGFileAndSubGridRequestsWithIgniteFixture.NewEmptyModel(); var baseTime = DateTime.UtcNow; var cellPasses = new[] { new CellPass { Time = baseTime, Height = heights[0], CCV = cmvs[0] }, new CellPass { Time = baseTime.AddHours(1), Height = heights[1], CCV = cmvs[1] }, new CellPass { Time = baseTime.AddHours(2), Height = heights[2], CCV = cmvs[2] }, new CellPass { Time = baseTime.AddHours(3), Height = heights[3], CCV = cmvs[3] } }; DITAGFileAndSubGridRequestsFixture.AddSingleCellWithPasses (siteModel, SubGridTreeConsts.DefaultIndexOriginOffset, SubGridTreeConsts.DefaultIndexOriginOffset, cellPasses); IClientLeafSubGrid clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CCVPercentChange) as ClientCMVLeafSubGrid; var serverGrid = TRex.SubGridTrees.Server.Utilities.SubGridUtilities.LocateSubGridContaining( siteModel.PrimaryStorageProxy, siteModel.Grid, SubGridTreeConsts.DefaultIndexOriginOffset, SubGridTreeConsts.DefaultIndexOriginOffset, siteModel.Grid.NumLevels, false, false) as IServerLeafSubGrid; var builder = new CellLiftBuilder(siteModel, GridDataType.CCVPercentChange, new FilteredValuePopulationControl(), new FilterSet(new CombinedFilter()), new CellPassFastEventLookerUpper(siteModel)); var cell = new ProfileCell(); var segmentIterator = new SubGridSegmentIterator(serverGrid, serverGrid.Directory, siteModel.PrimaryStorageProxy); var cellPassIterator = new SubGridSegmentCellPassIterator_NonStatic(segmentIterator); var filteredValueAssignmentContext = new FilteredValueAssignmentContext(); builder.Build(cell, new LiftParameters(), clientGrid, filteredValueAssignmentContext, cellPassIterator, true).Should().BeTrue(); cell.Layers.Count().Should().Be(1); cell.Layers[0].PassCount.Should().Be(4); filteredValueAssignmentContext.FilteredValue.FilteredPassData.FilteredPass.CCV.Should().Be(cmvs[cmvs.Length - 1]); filteredValueAssignmentContext.PreviousFilteredValue.FilteredPassData.FilteredPass.CCV.Should().Be(cmvs[cmvs.Length - 2]); }
private static void DependencyInjection() { DIBuilder .New() .AddLogging() .Add(x => x.AddSingleton <ITRexGridFactory>(new TRexGridFactory())) .Add(x => x.AddSingleton <IStorageProxyFactory>(new StorageProxyFactory())) .Add(x => x.AddTransient <ISurveyedSurfaces>(factory => new SurveyedSurfaces())) .Add(x => x.AddSingleton <ISurveyedSurfaceFactory>(new SurveyedSurfaceFactory())) .Build() // The renderer factory that allows tile rendering services access Bitmap etc platform dependent constructs .Add(x => x.AddSingleton <IRenderingFactory>(new RenderingFactory())) .Add(x => x.AddSingleton <ISiteModels>(new SiteModels(() => DIContext.Obtain <IStorageProxyFactory>().ImmutableGridStorage()))) .Add(x => x.AddSingleton <ISiteModelFactory>(new SiteModelFactory())) .Add(x => x.AddSingleton <ICoordinateConversion>(new CoordinateConversion())) .Add(x => x.AddSingleton <IExistenceMaps>(new VSS.TRex.ExistenceMaps.ExistenceMaps())) .Add(x => x.AddSingleton <IPipelineProcessorFactory>(new PipelineProcessorFactory())) .Add(x => x.AddSingleton <Func <PipelineProcessorPipelineStyle, ISubGridPipelineBase> >(provider => SubGridPipelineFactoryMethod)) .Add(x => x.AddTransient <IRequestAnalyser>(factory => new RequestAnalyser())) .Add(x => x.AddSingleton <Func <PipelineProcessorTaskStyle, ITask> >(provider => SubGridTaskFactoryMethod)) .Add(x => x.AddSingleton <IClientLeafSubGridFactory>(ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory())) .Add(x => x.AddSingleton(new ApplicationServiceServer(new[] { ApplicationServiceServer.DEFAULT_ROLE, ServerRoles.ASNODE_PROFILER, ServerRoles.PATCH_REQUEST_ROLE, ServerRoles.TILE_RENDERING_NODE, ServerRoles.ANALYTICS_NODE }))) .Complete(); }
private static void DependencyInjection() { DIBuilder .New() .AddLogging() .Add(x => x.AddSingleton <ITRexGridFactory>(new TRexGridFactory())) .Add(x => x.AddSingleton <IStorageProxyFactory>(new StorageProxyFactory())) .Add(x => x.AddTransient <ISurveyedSurfaces>(factory => new SurveyedSurfaces())) .Add(x => x.AddSingleton <ISurveyedSurfaceFactory>(new SurveyedSurfaceFactory())) .Build() .Add(x => x.AddSingleton <ISiteModels>(new SiteModels(() => DIContext.Obtain <IStorageProxyFactory>().ImmutableGridStorage()))) .Add(x => x.AddSingleton <ISiteModelFactory>(new SiteModelFactory())) .Add(x => x.AddSingleton <IProfilerBuilderFactory>(new ProfilerBuilderFactory())) .Add(x => x.AddTransient <IProfilerBuilder>(factory => new ProfilerBuilder())) .Add(x => x.AddSingleton <IExistenceMaps>(new ExistenceMaps())) .Add(x => x.AddSingleton <IPipelineProcessorFactory>(new PipelineProcessorFactory())) .Add(x => x.AddSingleton <Func <PipelineProcessorPipelineStyle, ISubGridPipelineBase> >(provider => SubGridPipelineFactoryMethod)) .Add(x => x.AddTransient <IRequestAnalyser>(factory => new RequestAnalyser())) .Add(x => x.AddSingleton <Func <PipelineProcessorTaskStyle, ITask> >(provider => SubGridTaskFactoryMethod)) .Add(x => x.AddSingleton <IProductionEventsFactory>(new ProductionEventsFactory())) .Add(x => x.AddSingleton <IClientLeafSubGridFactory>(ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory())) .Add(x => x.AddSingleton(new SubGridProcessingServer())) .Add(x => x.AddSingleton <IDesignsService>(new DesignsService(StorageMutability.Immutable))) .Complete(); }
public void Test_NullCell() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CompositeHeights) as ClientCompositeHeightsLeafSubgrid; clientGrid.Cells[0, 0] = clientGrid.NullCell(); Assert.False(clientGrid.CellHasValue(0, 0), "Cell not set to correct null value"); }
public void SupportsCorrectAssignableTypes() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.Height) as ClientHeightLeafSubGrid; clientGrid.SupportsAssignationFrom(GridDataType.Height).Should().BeTrue(); clientGrid.SupportsAssignationFrom(GridDataType.HeightAndTime).Should().BeTrue(); }
public void Test_MDPAggregator_ProcessResult_NoAggregation_Details() { var aggregator = new MDPStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MDP) as ClientMDPLeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; var length = (short)Math.Sqrt(dLength); aggregator.CellSize = TestConsts.CELL_SIZE; aggregator.DetailsDataValues = new[] { 1, 5, 10, 15, 20, 25, 31 }; aggregator.Counts = new long[aggregator.DetailsDataValues.Length]; IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); Assert.True(aggregator.Counts.Length == aggregator.DetailsDataValues.Length, "Invalid value for DetailsDataValues."); for (int i = 0; i < aggregator.Counts.Length; i++) { Assert.True(aggregator.Counts[i] > 0, $"Invalid value for Counts[{i}]."); } }
public void Test_SpeedAggregator_ProcessResult_WithAggregation() { var aggregator = new SpeedStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MachineSpeedTarget) as ClientMachineTargetSpeedLeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; var length = (short)Math.Sqrt(dLength); aggregator.CellSize = TestConsts.CELL_SIZE; aggregator.TargetMachineSpeed = new MachineSpeedExtendedRecord((ushort)(length - 1), (ushort)(length - 1)); IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); // Other aggregator... var otherAggregator = new SpeedStatisticsAggregator(); otherAggregator.CellSize = TestConsts.CELL_SIZE; otherAggregator.TargetMachineSpeed = new MachineSpeedExtendedRecord((ushort)(length - 1), (ushort)(length - 1)); otherAggregator.ProcessSubGridResult(subGrids); aggregator.AggregateWith(otherAggregator); Assert.True(aggregator.SummaryCellsScanned == dLength * 2, "Invalid value for SummaryCellsScanned."); Assert.True(Math.Abs(aggregator.SummaryProcessedArea - 2 * dLength * Math.Pow(aggregator.CellSize, 2)) < Consts.TOLERANCE_DIMENSION, "Invalid value for SummaryProcessedArea."); Assert.True(aggregator.CellsScannedAtTarget == length * 2, "Invalid value for CellsScannedAtTarget."); Assert.True(aggregator.CellsScannedOverTarget == dLength - length, "Invalid value for CellsScannedOverTarget."); Assert.True(aggregator.CellsScannedUnderTarget == dLength - length, "Invalid value for CellsScannedUnderTarget."); }
public void Test_MDPAggregator_ProcessResult_NoAggregation_Summary() { var aggregator = new MDPStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MDP) as ClientMDPLeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; var length = (short)Math.Sqrt(dLength); aggregator.CellSize = TestConsts.CELL_SIZE; aggregator.OverrideMachineMDP = true; aggregator.OverridingMachineMDP = (short)(length - 1); aggregator.MDPPercentageRange = new MDPRangePercentageRecord(100, 100); IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); Assert.True(aggregator.SummaryCellsScanned == dLength, "Invalid value for SummaryCellsScanned."); Assert.True(Math.Abs(aggregator.SummaryProcessedArea - dLength * Math.Pow(aggregator.CellSize, 2)) < Consts.TOLERANCE_DIMENSION, "Invalid value for SummaryProcessedArea."); Assert.True(aggregator.CellsScannedAtTarget == length, "Invalid value for CellsScannedAtTarget."); Assert.True(aggregator.CellsScannedOverTarget == 0, "Invalid value for CellsScannedOverTarget."); Assert.True(aggregator.CellsScannedUnderTarget == dLength - length, "Invalid value for CellsScannedUnderTarget."); }
public void Test_TemperatureAggregator_ProcessResult_NoAggregation() { var aggregator = new TemperatureStatisticsAggregator(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.Temperature) as ClientTemperatureLeafSubGrid; clientGrid.FillWithTestPattern(); var dLength = clientGrid.Cells.Length; var length = (short)Math.Sqrt(dLength); aggregator.CellSize = TestConsts.CELL_SIZE; aggregator.OverrideTemperatureWarningLevels = true; aggregator.OverridingTemperatureWarningLevels = new TemperatureWarningLevelsRecord((ushort)(length - 1), (ushort)(length - 1)); IClientLeafSubGrid[][] subGrids = new[] { new[] { clientGrid } }; aggregator.ProcessSubGridResult(subGrids); Assert.True(aggregator.SummaryCellsScanned == dLength, "Invalid value for SummaryCellsScanned."); Assert.True(Math.Abs(aggregator.SummaryProcessedArea - dLength * Math.Pow(aggregator.CellSize, 2)) < Consts.TOLERANCE_DIMENSION, "Invalid value for SummaryProcessedArea."); Assert.True(aggregator.CellsScannedAtTarget == length, "Invalid value for CellsScannedAtTarget."); Assert.True(aggregator.CellsScannedOverTarget == 0, "Invalid value for CellsScannedOverTarget."); Assert.True(aggregator.CellsScannedUnderTarget == dLength - length, "Invalid value for CellsScannedUnderTarget."); }
public void Test_NullCells() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.HeightAndTime) as ClientHeightAndTimeLeafSubGrid; SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Cells[x, y] == Consts.NullHeight, "Cell not set to correct null value")); SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Times[x, y] == 0, "Cell time not set to correct null value")); }
public void Test_GenericClientLeafSubgrid_ForEach_Ex(GridDataType gridDataType) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); int Count = 0; clientGrid.ForEach((x, y) => Count++); Assert.True(SubGridTreeConsts.SubGridTreeCellsPerSubGrid == Count, "ForEach did not iterate all cells"); }
public void Test_IndicativeSize() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MachineSpeed) as ClientMachineSpeedLeafSubGrid; int expectedSize = 2 * (4 * 32); // 2 bit mask subgrids in this and parent class int actualSize = clientGrid.IndicativeSizeInBytes(); Assert.True(actualSize == expectedSize, $"IndicativeSize() incorrect, = {clientGrid.IndicativeSizeInBytes()}, expected = {expectedSize}"); }
public void AssignFilteredValue_NoCellProfile_FailWithException() { var context = new FilteredValueAssignmentContext(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CellPasses) as ClientCellProfileAllPassesLeafSubgrid; Action act = () => clientGrid.AssignFilteredValue(0, 0, context); act.Should().Throw <TRexSubGridProcessingException>().WithMessage("*CellProfile not assigned*"); }
public void Test_GenericClientLeafSubgrid_Read_FailWithCorruptData(GridDataType gridDataType) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); byte[] bytes = new byte[100]; // 100 zeros, which will cause the FromBytes call to fail with a TRexSubGridIOException on the grid data type Action act = () => clientGrid.FromBytes(bytes); act.Should().Throw <TRexSubGridIOException>().WithMessage("GridDataType in stream does not match GridDataType of local sub grid instance"); }
public void Test_NullCells() { var cell = new ClientCellProfileAllPassesLeafSubgridRecord(); cell.Clear(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CellPasses) as ClientCellProfileAllPassesLeafSubgrid; SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Cells[x, y].GetHashCode() == cell.GetHashCode())); }
public void Test_NullCells() { var cell = new MachineSpeedExtendedRecord(); cell.Clear(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.MachineSpeedTarget) as ClientMachineTargetSpeedLeafSubGrid; SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Cells[x, y].Equals(cell))); }
public void Test_NullCells() { var cell = new SubGridCellPassDataPassCountEntryRecord(); cell.Clear(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.PassCount) as ClientPassCountLeafSubGrid; SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Cells[x, y].Equals(cell))); }
public void Test_NullCells() { var cell = new SubGridCellCompositeHeightsRecord(); cell.Clear(); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.CompositeHeights) as ClientCompositeHeightsLeafSubgrid; SubGridUtilities.SubGridDimensionalIterator((x, y) => Assert.True(clientGrid.Cells[x, y].Equals(cell))); }
public void Test_GenericClientLeafSubgrid_Implements_AssignFromCachedPreProcessedClientSubgrid_PartialMap(GridDataType gridDataType) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); clientGrid.FillWithTestPattern(); var clientGrid2 = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); var filterMap = new SubGridTreeBitmapSubGridBits(SubGridBitsCreationOptions.Unfilled) {
public void Test_HeightClientLeafSubGridTests_AssignableFilteredValueIsNull_False() { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.Height) as ClientHeightLeafSubGrid; var passData = new FilteredPassData { FilteredPass = new CellPass { Height = 42.0f } }; Assert.False(clientGrid.AssignableFilteredValueIsNull(ref passData), "Filtered value stated as null when it is not"); }
public void RetrieveSubGrid_FailWithSubGridNotFound() { var siteModel = DITAGFileAndSubGridRequestsWithIgniteFixture.NewEmptyModel(); var retriever = MakeANewRetriever(siteModel); var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.ProgressiveVolumes); var result = retriever.RetrieveSubGrid(clientGrid, SubGridTreeBitmapSubGridBits.FullMask, out var sieveFilterInUse, null); result.Should().Be(ServerRequestResult.SubGridNotFound); sieveFilterInUse.Should().BeFalse(); }
public void ProcessSubGridResult_FailWothNoDefinedVolumeType() { var subGrids = new[] { new[] { ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(GridDataType.ProgressiveVolumes) } }; var aggr = new ProgressiveVolumesCalculationsAggregator(); aggr.AggregationStates = new ProgressiveVolumeAggregationState[1]; Action act = () => aggr.ProcessSubGridResult(subGrids); act.Should().Throw <ArgumentException>().WithMessage("Unsupported volume type*"); }
public void Test_GenericClientLeafSubgrid_Implements_AssignFromCachedPreProcessedClientSubgrid_FullMap(GridDataType gridDataType) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); clientGrid.FillWithTestPattern(); var clientGrid2 = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); clientGrid2.AssignFromCachedPreProcessedClientSubGrid(clientGrid, new SubGridTreeBitmapSubGridBits(SubGridBitsCreationOptions.Filled)); clientGrid.Should().BeEquivalentTo(clientGrid2); }
public void Test_GenericClientLeafSubgrid_Creation_EX(GridDataType gridDataType, bool expected) { var clientGrid = ClientLeafSubGridFactoryFactory.CreateClientSubGridFactory().GetSubGrid(gridDataType); if (expected) { Assert.NotNull(clientGrid); } else { Assert.Null(clientGrid); } }