/// <summary>
        /// Create a new circular cross section and add it to the CrossSectionData object
        /// </summary>
        /// <param name="csData">Cross section data object</param>
        public static void CreateAndAddCircularCrossSection(CrossSectionData csData)
        {
            // Creates a class representing a cross section with raw data attached.
            CrossSectionFactory builder = new CrossSectionFactory();

            builder.BuildCircular(2);

            // Defines the location of the current cross section. The Z-coordinate
            // is the bottom level of the cross section (unless defined by the
            // raw data (the open cross sections)).
            builder.SetLocation(new ZLocation("pipe A", 10)
            {
                Z = 0
            });

            // Set flow resistance
            FlowResistance flowResistance = new FlowResistance();

            flowResistance.ResistanceDistribution = ResistanceDistribution.ExponentVarying;
            flowResistance.ResistanceValue        = 75;
            flowResistance.ResistanceTopValue     = 85;
            flowResistance.ExpDepExponent         = 1.5;
            flowResistance.Formulation            = ResistanceFormulation.Manning_M;
            builder.SetFlowResistance(flowResistance);

            // Get cross section from builder
            CrossSectionLocated cs = builder.GetCrossSection();

            cs.TopoID = "1";

            // Calculates the processed levels, storage areas, radii, etc, ie, fill in all
            // ProcessedXXX properties.
            cs.BaseCrossSection.CalculateProcessedData();

            // Validates the data. The constraints are that the levels and the areas after sorting
            // must be monotonically increasing.
            IDiagnostics diagnostics = cs.Validate();

            if (diagnostics.ErrorCountRecursive > 0)
            {
                throw new Exception(String.Format("Number of errors: {0}", diagnostics.Errors.Count));
            }

            // Add the cross section
            csData.Add(cs);
        }
Beispiel #2
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        /// <summary>
        /// Adds a new cross section to the CrossSectionData object
        /// </summary>
        /// <param name="csData">Cross section data object</param>
        public static void AddCrossSection(CrossSectionData csData)
        {
            // Note: Raw data must be ordered from left to right in order for hydraulic radius to be processed correctly

            // Creates a class representing a cross section with raw data attached.
            CrossSectionFactory builder = new CrossSectionFactory();

            builder.BuildOpen("");

            // Defines the location of the current cross section. The Z-coordinate
            // is the bottom level of the cross section (unless defined by the
            // raw data (the open cross sections)).
            builder.SetLocation(new ZLocation("river B", 500)
            {
                Z = 0
            });

            // Create a number of points
            CrossSectionPointList points = new CrossSectionPointList();

            points.Add(new CrossSectionPoint(-1.0, 2.0));
            points.Add(new CrossSectionPoint(0.0, 1.0));
            points.Add(new CrossSectionPoint(0.0, 0.0));
            points.Add(new CrossSectionPoint(1.0, 0.0));
            points.Add(new CrossSectionPoint(1.0, 1.0));
            points.Add(new CrossSectionPoint(2.0, 2.0));
            points.Add(new CrossSectionPoint(3.0, 2.0)); // dummy point, outside right levee bank marker
            // Sets the markers at left/right side and lowest point.
            builder.SetRawPoints(points);
            builder.SetLeftLeveeBank(points[0]);
            builder.SetLowestPoint(points[3]);
            builder.SetRightLeveeBank(points[5]);

            // Set flow resistance
            FlowResistance flowResistance = new FlowResistance();

            flowResistance.ResistanceDistribution = ResistanceDistribution.Uniform;
            flowResistance.ResistanceValue        = 1;
            flowResistance.Formulation            = ResistanceFormulation.Relative;
            builder.SetFlowResistance(flowResistance);
            builder.SetRadiusType(RadiusType.ResistanceRadius);

            // Get cross section from builder
            CrossSectionLocated cs = builder.GetCrossSection();

            cs.TopoID = "1";

            // Calculates the processed levels, storage areas, radii, etc, ie, fill in all
            // ProcessedXXX properties.
            cs.BaseCrossSection.CalculateProcessedData();

            // Validates the data. The constraints are that the levels and the areas after sorting
            // must be monotonically increasing.
            IDiagnostics diagnostics = cs.Validate();

            if (diagnostics.ErrorCountRecursive > 0)
            {
                throw new Exception(String.Format("Number of errors: {0}", diagnostics.Errors.Count));
            }

            // Add the cross section
            csData.Add(cs);
        }
        /// <summary>
        /// Import from text file to xns11 file
        /// </summary>
        /// <param name="txtFileName">Path and name of text file to import</param>
        /// <param name="xns11FileName">Path and name of xns11 file to create or update</param>
        /// <param name="xns11NewFileName">Path and name of xns11 file to write to</param>
        public static void Import(string txtFileName, string xns11FileName, string xns11NewFileName = null)
        {
            StreamReader reader = new StreamReader(txtFileName);

            CrossSectionDataFactory crossSectionDataFactory = new CrossSectionDataFactory();
            CrossSectionData        csData;

            if (File.Exists(xns11FileName))
            {
                csData = crossSectionDataFactory.Open(Connection.Create(xns11FileName), null);
            }
            else
            {
                csData = new CrossSectionData();
            }
            if (string.IsNullOrEmpty(xns11NewFileName))
            {
                xns11NewFileName = xns11FileName;
            }

            string line;

            // Read cross section info-line
            while ((line = reader.ReadLine()) != null)
            {
                // Split cross section info-line
                string[] split = line.SplitQuoted(',', '"');

                // extract info from info-line
                Location location     = new Location(split[1], double.Parse(split[2], CultureInfo.InvariantCulture));
                string   topoId       = split[3];
                double   datum        = double.Parse(split[4], CultureInfo.InvariantCulture);
                int      numRawPoints = int.Parse(split[5]);

                // Check if this cross section is to be processed
                if (split[0] == "1")
                {
                    ICrossSection cs = csData.FindCrossSection(location, topoId);

                    CrossSectionPointList points = new CrossSectionPointList();

                    // Read raw points
                    for (int i = 0; i < numRawPoints; i++)
                    {
                        line = reader.ReadLine();
                        if (line == null) // end-of-file
                        {
                            throw new EndOfStreamException("File ended prematurely");
                        }

                        string[] coords = line.Split(',');

                        double x = double.Parse(coords[0], CultureInfo.InvariantCulture);
                        double z = double.Parse(coords[1], CultureInfo.InvariantCulture);
                        points.Add(new CrossSectionPoint(x, z));
                    }

                    // Check if cross section already exists
                    if (cs != null)
                    {
                        // Check if it is a cross section with raw points
                        XSBaseRaw xsBaseRaw = cs.BaseCrossSection as XSBaseRaw;
                        if (xsBaseRaw == null)
                        {
                            throw new Exception("Cannot modify raw points of a cross section without raw points: " + location.ToString() + ", " + topoId);
                        }

                        // replace datum (in case datum changes)
                        cs.Location.Z = datum;
                        // Replace points
                        xsBaseRaw.Points = points;
                        // Set default markers
                        xsBaseRaw.UpdateMarkersToDefaults(true, true, true);
                        // Recalculate processed data
                        xsBaseRaw.ProcessingLevelsSpecs.NoOfLevels = 50;
                        xsBaseRaw.CalculateProcessedData();
                    }
                    else
                    {
                        // Create a new cross section
                        CrossSectionFactory builder = new CrossSectionFactory();
                        builder.BuildOpen("");

                        // Defines the location of the current cross section. The Z-coordinate
                        // for an open cross section with raw data is a Z-offset, and usually zero.
                        builder.SetLocation(new ZLocation(location.ID, location.Chainage)
                        {
                            Z = datum
                        });

                        // Set raw points and default markers
                        builder.SetRawPoints(points);
                        builder.SetDefaultMarkers();

                        // Define resistance properties as relative
                        FlowResistance flowResistance = new FlowResistance();
                        flowResistance.Formulation            = ResistanceFormulation.Relative;
                        flowResistance.ResistanceDistribution = ResistanceDistribution.Uniform;
                        flowResistance.ResistanceValue        = 1;
                        builder.SetFlowResistance(flowResistance);
                        builder.SetRadiusType(RadiusType.ResistanceRadius);

                        // Get the cross section
                        CrossSectionLocated csLocated = builder.GetCrossSection();
                        // Set topo-id
                        csLocated.TopoID = topoId;

                        // now, calculate processed data
                        csLocated.BaseCrossSection.ProcessingLevelsSpecs.Option     = ProcessingOption.AutomaticLevels;
                        csLocated.BaseCrossSection.ProcessingLevelsSpecs.NoOfLevels = 0;
                        csLocated.BaseCrossSection.CalculateProcessedData();

                        // Store cross section in database
                        csData.Add(csLocated);
                    }
                }
                else // this cross section should not be processed
                {
                    // Skip line containing raw points
                    for (int i = 0; i < numRawPoints; i++)
                    {
                        line = reader.ReadLine();
                        if (line == null) // end-of-file
                        {
                            throw new EndOfStreamException("File ended prematurely");
                        }
                    }
                }
            }
            csData.Connection = Connection.Create(xns11NewFileName);
            CrossSectionDataFactory.Save(csData);
        }