Example #1
0
        /// <summary>
        /// Computes a tight bounding extent around the elevation values stored in the sub grid tree
        /// </summary>
        private static BoundingWorldExtent3D DataStoreExtents(ISubGridTree dataStore)
        {
            var computedGridExtent = BoundingWorldExtent3D.Inverted();

            dataStore.ScanAllSubGrids(subGrid =>
            {
                var items = ((GenericLeafSubGrid <float>)subGrid).Items;
                SubGridUtilities.SubGridDimensionalIterator((x, y) =>
                {
                    var elev = items[x, y];
                    if (elev != Common.Consts.NullHeight)
                    {
                        computedGridExtent.Include(subGrid.OriginX + x, subGrid.OriginY + y, elev);
                    }
                });

                return(true);
            });

            if (computedGridExtent.IsValidPlanExtent)
            {
                computedGridExtent.Offset(-SubGridTreeConsts.DefaultIndexOriginOffset, -SubGridTreeConsts.DefaultIndexOriginOffset);
            }

            // Convert the grid rectangle to a world rectangle, padding out the 3D bound by a small margin to avoid edge effects in calculations
            var computedWorldExtent = new BoundingWorldExtent3D
                                          ((computedGridExtent.MinX - 1.01) * dataStore.CellSize,
                                          (computedGridExtent.MinY - 1.01) * dataStore.CellSize,
                                          (computedGridExtent.MaxX + 1.01) * dataStore.CellSize,
                                          (computedGridExtent.MaxY + 1.01) * dataStore.CellSize,
                                          computedGridExtent.MinZ - 0.01, computedGridExtent.MaxZ + 0.01);

            return(computedWorldExtent);
        }
Example #2
0
        public void ProcessElevationInformationForSubGrid_DefinedBaseWithNullTopHeights()
        {
            const double cellSize = SubGridTreeConsts.DefaultCellSize;
            const double cellArea = cellSize * cellSize;

            var state       = new ProgressiveVolumeAggregationState(cellSize);
            var baseHeights = NullHeights();
            var topHeights  = NullHeights();

            TRex.SubGridTrees.Core.Utilities.SubGridUtilities.SubGridDimensionalIterator((x, y) => baseHeights[x, y] = 0.0f);

            state.ProcessElevationInformationForSubGrid(SubGridTreeConsts.DefaultIndexOriginOffset, SubGridTreeConsts.DefaultIndexOriginOffset,
                                                        baseHeights, topHeights);

            state.Finalise();

            state.CutFillVolume.CutVolume.Should().Be(0.0);
            state.CutFillVolume.FillVolume.Should().Be(0.0);

            state.CoverageArea.Should().Be(0.0 * cellArea);
            state.CutArea.Should().Be(0.0 * cellArea);
            state.FillArea.Should().Be(0.0 * cellArea);
            state.TotalArea.Should().Be(SubGridTreeConsts.CellsPerSubGrid * cellArea);
            state.BoundingExtents.Should().BeEquivalentTo(BoundingWorldExtent3D.Inverted());
        }
Example #3
0
        public void SiteModelStatisticsExecutor_EmptySiteModel()
        {
            var siteModel = DITAGFileAndSubGridRequestsWithIgniteFixture.NewEmptyModel();

            var request = new ProjectStatisticsTRexRequest(siteModel.ID, null);

            request.Validate();

            var executor = RequestExecutorContainer
                           .Build <SiteModelStatisticsExecutor>(DIContext.Obtain <IConfigurationStore>(),
                                                                DIContext.Obtain <ILoggerFactory>(),
                                                                DIContext.Obtain <IServiceExceptionHandler>());
            var result = executor.Process(request) as ProjectStatisticsResult;

            result.Code.Should().Be(ContractExecutionStatesEnum.ExecutedSuccessfully);
            result.cellSize.Should().Be(SubGridTreeConsts.DefaultCellSize);
            result.startTime.Should().Be(Consts.MAX_DATETIME_AS_UTC);
            result.endTime.Should().Be(Consts.MIN_DATETIME_AS_UTC);
            result.extents.MinX.Should().Be(BoundingWorldExtent3D.Inverted().MinX);
            result.extents.MaxX.Should().Be(BoundingWorldExtent3D.Inverted().MaxX);
            result.extents.MinY.Should().Be(BoundingWorldExtent3D.Inverted().MinY);
            result.extents.MaxY.Should().Be(BoundingWorldExtent3D.Inverted().MaxY);
            result.extents.MinZ.Should().Be(BoundingWorldExtent3D.Inverted().MinZ);
            result.extents.MaxZ.Should().Be(BoundingWorldExtent3D.Inverted().MaxZ);
            result.indexOriginOffset.Should().Be((int)SubGridTreeConsts.DefaultIndexOriginOffset);

            var expectedJson = "{\"startTime\":\"9999-12-31T23:59:59.9999999\",\"endTime\":\"0001-01-01T00:00:00\",\"cellSize\":0.34,\"indexOriginOffset\":536870912,\"extents\":{\"maxX\":-1E+100,\"maxY\":-1E+100,\"maxZ\":-1E+100,\"minX\":1E+100,\"minY\":1E+100,\"minZ\":1E+100},\"Code\":0,\"Message\":\"success\"}";
            var json         = JsonConvert.SerializeObject(result);

            json.Should().Be(expectedJson);
        }
Example #4
0
        public void Inverted()
        {
            var bound = BoundingWorldExtent3D.Inverted();

            bound.MinX.Should().Be(1E100);
            bound.MinY.Should().Be(1E100);
            bound.MaxX.Should().Be(-1E100);
            bound.MaxY.Should().Be(-1E100);
            bound.MinZ.Should().Be(1E100);
            bound.MaxZ.Should().Be(-1E100);
        }
Example #5
0
        public bool GetHeightRange(out double MinZ, out double MaxZ)
        {
            var Bound = BoundingWorldExtent3D.Inverted();

            for (int I = 0; I < Entities.Count; I++)
            {
                Bound.Include(Entities[I].GetStartPoint().Z);
                Bound.Include(Entities[I].GetEndPoint().Z);
            }

            MinZ = Bound.IsValidHeightExtent ? Bound.MinZ : Consts.NullDouble;
            MaxZ = Bound.IsValidHeightExtent ? Bound.MaxZ : Consts.NullDouble;

            return(Bound.IsValidHeightExtent);
        }
Example #6
0
        public void Include_BoundingRectangle()
        {
            var bound = BoundingWorldExtent3D.Inverted();

            bound.Include(new BoundingWorldExtent3D(10, 10, 20, 20, 0, 0));
            bound.Should().BeEquivalentTo(new BoundingWorldExtent3D(10, 10, 20, 20, 0, 0));

            bound.Include(new BoundingWorldExtent3D(10, 10, 20, 20, 10, 20));
            bound.Should().BeEquivalentTo(new BoundingWorldExtent3D(10, 10, 20, 20, 0, 20));

            bound.Include(new BoundingWorldExtent3D(-100, -100, 200, 200, -10, 0));
            bound.Should().BeEquivalentTo(new BoundingWorldExtent3D(-100, -100, 200, 200, -10, 20));

            bound.Include(new BoundingWorldExtent3D(-1000, -1000, 2000, 2000, -20, 100), true);
            bound.Should().BeEquivalentTo(new BoundingWorldExtent3D(-1000, -1000, 2000, 2000, -10, 20));
        }
Example #7
0
        public void Test_TileRenderRequestArgument()
        {
            var argument = new TileRenderRequestArgument
            {
                ProjectID       = Guid.NewGuid(),
                Filters         = new FilterSet(new CombinedFilter(), new CombinedFilter()),
                ReferenceDesign = new DesignOffset(Guid.NewGuid(), 1.5),
                Mode            = DisplayMode.Height,
                CoordsAreGrid   = true,
                PixelsX         = 100,
                PixelsY         = 200,
                Extents         = BoundingWorldExtent3D.Inverted(),
                VolumeType      = VolumeComputationType.BetweenDesignAndFilter
            };

            SimpleBinarizableInstanceTester.TestClass(argument, "Custom TileRenderRequestArgument not same after round trip serialisation");
        }
Example #8
0
        public void Test_RequestAnalyser_NullOrInvertedSpatialExtents_YieldsNoSubGrids()
        {
            var prodDataExistenceMap = new SubGridTreeSubGridExistenceBitMask();
            var PipeLine             = new SubGridPipelineProgressive <SubGridsRequestArgument, SubGridRequestsResponse>(null)
            {
                FilterSet            = new FilterSet(new CombinedFilter()),
                ProdDataExistenceMap = prodDataExistenceMap,
                OverallExistenceMap  = prodDataExistenceMap
            };

            var analyser = new RequestAnalyser(PipeLine, BoundingWorldExtent3D.Null());

            Assert.Equal(0, analyser.CountOfSubGridsThatWillBeSubmitted());

            analyser = new RequestAnalyser(PipeLine, BoundingWorldExtent3D.Inverted());

            Assert.Equal(0, analyser.CountOfSubGridsThatWillBeSubmitted());
        }
Example #9
0
        public void Test_SimpleVolumesRequestArgument()
        {
            ICombinedFilter FromFilter = new CombinedFilter
            {
                AttributeFilter = new CellPassAttributeFilter
                {
                    ReturnEarliestFilteredCellPass = true,
                    HasElevationTypeFilter         = true,
                    ElevationType = ElevationType.First
                },

                SpatialFilter = new CellSpatialFilter
                {
                    CoordsAreGrid = true,
                    IsSpatial     = true,
                    Fence         = new Fence(BoundingWorldExtent3D.Inverted())
                }
            };

            CombinedFilter ToFilter = new CombinedFilter()
            {
                AttributeFilter = new CellPassAttributeFilter()
                {
                    ReturnEarliestFilteredCellPass = false,
                    HasElevationTypeFilter         = true,
                    ElevationType = ElevationType.Last
                },

                SpatialFilter = FromFilter.SpatialFilter
            };
            var argument = new SimpleVolumesRequestArgument()
            {
                ProjectID     = Guid.NewGuid(),
                VolumeType    = VolumeComputationType.Between2Filters,
                BaseFilter    = FromFilter,
                TopFilter     = ToFilter,
                BaseDesign    = new DesignOffset(Guid.NewGuid(), 1.5),
                TopDesign     = new DesignOffset(Guid.NewGuid(), -0.5),
                CutTolerance  = CUT_TOLERANCE,
                FillTolerance = FILL_TOLERANCE
            };

            SimpleBinarizableInstanceTester.TestClass(argument, "Custom SimpleVolumesRequestArgument not same after round trip serialisation");
        }
Example #10
0
        public void ProcessElevationInformationForSubGrid_NullBaseAndTopHeights()
        {
            const double cellSize = SubGridTreeConsts.DefaultCellSize;
            const double cellArea = cellSize * cellSize;

            var state = new ProgressiveVolumeAggregationState(cellSize);

            state.ProcessElevationInformationForSubGrid(SubGridTreeConsts.DefaultIndexOriginOffset, SubGridTreeConsts.DefaultIndexOriginOffset,
                                                        NullHeights(), NullHeights());

            state.Finalise();

            state.CutFillVolume.CutVolume.Should().Be(0.0);
            state.CutFillVolume.FillVolume.Should().Be(0.0);

            state.CoverageArea.Should().Be(0.0 * cellArea);
            state.CutArea.Should().Be(0.0 * cellArea);
            state.FillArea.Should().Be(0.0 * cellArea);
            state.TotalArea.Should().Be(SubGridTreeConsts.CellsPerSubGrid * cellArea);
            state.BoundingExtents.Should().BeEquivalentTo(BoundingWorldExtent3D.Inverted());
        }
Example #11
0
        private BoundingWorldExtent3D DataStoreExtents(DecimationElevationSubGridTree dataStore)
        {
            BoundingWorldExtent3D ComputedGridExtent = BoundingWorldExtent3D.Inverted();

            dataStore.ScanAllSubGrids(subGrid =>
            {
                SubGridUtilities.SubGridDimensionalIterator((x, y) =>
                {
                    float elev = ((GenericLeafSubGrid <float>)subGrid).Items[x, y];
                    if (elev != 0)
                    {
                        ComputedGridExtent.Include((int)(subGrid.OriginX + x), (int)(subGrid.OriginY + y), elev);
                    }
                    else
                    {
                        ((GenericLeafSubGrid <float>)subGrid).Items[x, y] = TRex.Common.Consts.NullHeight;
                    }
                });

                return(true);
            });

            if (ComputedGridExtent.IsValidPlanExtent)
            {
                ComputedGridExtent.Offset(-(int)SubGridTreeConsts.DefaultIndexOriginOffset, -(int)SubGridTreeConsts.DefaultIndexOriginOffset);
            }

            // Convert the grid rectangle to a world rectangle
            BoundingWorldExtent3D ComputedWorldExtent = new BoundingWorldExtent3D
                                                            ((ComputedGridExtent.MinX - 0.01) * dataStore.CellSize,
                                                            (ComputedGridExtent.MinY - 0.01) * dataStore.CellSize,
                                                            (ComputedGridExtent.MaxX + 1 + 0.01) * dataStore.CellSize,
                                                            (ComputedGridExtent.MaxY + 1 + 0.01) * dataStore.CellSize,
                                                            ComputedGridExtent.MinZ, ComputedGridExtent.MaxZ);

            return(ComputedWorldExtent);
        }
Example #12
0
        public void Test_SubGridTreeBitMask_ComputeCellsWorldExtents_EmptyMask()
        {
            var mask = new SubGridTreeBitMask();

            mask.ComputeCellsWorldExtents().Should().BeEquivalentTo(BoundingWorldExtent3D.Inverted());
        }