/* * public PreparedGeometryTeeOperation() * { * } */ /// <summary> /// Creates a new operation which chains to the given <see cref="IGeometryOperation"/> /// for non-intercepted methods. /// </summary> /// <param name="chainOp">The operation to chain to</param> public PreparedGeometryTeeOperation(GeometryMethodOperation chainOp) : base(chainOp) { }
/// <summary> /// Creates a new operation which chains to the given <see cref="IGeometryOperation"/> /// for non-intercepted methods. /// </summary> /// <param name="chainOp">The operation to chain to</param> public BufferValidatedGeometryOperation(GeometryMethodOperation chainOp) { _chainOp = chainOp; }
/// <summary> /// Creates a new operation which chains to the given {@link GeometryMethodOperation} /// for non-intercepted methods. /// </summary> /// <param name="chainOp">the operation to chain to</param> public OverlayValidatedGeometryOperation(GeometryMethodOperation chainOp) { _chainOp = chainOp; }
/** * Creates a new operation which chains to the given {@link GeometryMethodOperation} * for non-intercepted methods. * * @param chainOp the operation to chain to */ public PreparedGeometryOperation(GeometryMethodOperation chainOp) { _chainOp = chainOp; }
public Type GetReturnType(String opName) { return(GeometryMethodOperation.GetGeometryReturnType(opName)); }
public bool LoadFile(string fileName) { if (!File.Exists(fileName)) { throw new ArgumentException(fileName, "The file does not exits or the 'fileName' is not valid."); } try { XmlDocument xmldoc = new XmlDocument(); xmldoc.Load(fileName); XmlElement root = xmldoc.DocumentElement; // Retrieve the "desc" tag, if any. XmlNode desc = root["desc"]; string strTestDescription = String.Empty; if (desc != null && desc.InnerText.Length > 0) { strTestDescription = desc.InnerText; } else { strTestDescription = Path.GetFileNameWithoutExtension(fileName); } // Retrieve the "workspace", if any. XmlNode workspace = root["workspace"]; if (workspace != null) { XmlAttributeCollection workspaceAttributes = workspace.Attributes; if (workspaceAttributes != null && workspaceAttributes.Count > 0) { m_strTestWorkspace = workspaceAttributes["dir"].InnerText; } } // Retrieve the "tolerance" attribute, if any. XmlNode tolerance = root["tolerance"]; double dTolerance = 0.0; if (tolerance != null) { string strTolerance = tolerance.InnerText; try { dTolerance = Double.Parse(strTolerance, GetNumberFormatInfo()); } catch (Exception ex) { XmlTestExceptionManager.Publish(ex); } } // Retrieve the precisionName" tag, if any. PrecisionModel pm = null; XmlNode precision = root["precisionModel"]; if (precision != null) { XmlAttributeCollection precisionAttributes = precision.Attributes; if (precisionAttributes != null && precisionAttributes.Count > 0) { XmlAttribute attribute = precisionAttributes["type"]; if (attribute != null) { string strPrecision = attribute.InnerText; if (strPrecision == "FIXED" && precisionAttributes.Count == 4) { try { double scale = Double.Parse(precisionAttributes["scale"].InnerText, GetNumberFormatInfo()); double offsetx = Double.Parse(precisionAttributes["offsetx"].InnerText, GetNumberFormatInfo()); double offsety = Double.Parse(precisionAttributes["offsety"].InnerText, GetNumberFormatInfo()); pm = new PrecisionModel(scale); } catch (Exception ex) { XmlTestExceptionManager.Publish(ex); } } else { pm = new PrecisionModel(); } } else { if (precisionAttributes.Count == 3) { double scale = Double.Parse(precisionAttributes["scale"].InnerText, GetNumberFormatInfo()); double offsetx = Double.Parse(precisionAttributes["offsetx"].InnerText, GetNumberFormatInfo()); double offsety = Double.Parse(precisionAttributes["offsety"].InnerText, GetNumberFormatInfo()); pm = new PrecisionModel(scale); } } } } if (pm == null) { pm = new PrecisionModel(); } IGeometryOperation geometryOperation = null; XmlNode go = root["geometryOperation"]; if (go != null) { go = go.FirstChild; switch (go.Value) { case "com.vividsolutions.jtstest.geomop.PreparedGeometryOperation": geometryOperation = new PreparedGeometryOperation(); break; case "com.vividsolutions.jtstest.geomop.BufferValidatedGeometryOperation": geometryOperation = new BufferValidatedGeometryOperation(); break; case "com.vividsolutions.jtstest.geomop.OverlayValidatedGeometryOperation": geometryOperation = new OverlayValidatedGeometryOperation(); break; default: Console.WriteLine(string.Format("\n *** {0} *** \n", go.Value)); Console.ReadKey(true); geometryOperation = new GeometryMethodOperation(); break; } } IResultMatcher resultMatcher = null; XmlNode rm = root["resultMatcher"]; if (rm != null) { rm = rm.FirstChild; if (rm.Value.EndsWith("BufferResultMatcher", StringComparison.InvariantCultureIgnoreCase)) resultMatcher = new BufferResultMatcher(); else { throw new NotSupportedException(); } } m_objFactory = new XmlTestFactory(pm, geometryOperation, resultMatcher); m_listCurTests = new XmlTestCollection(); m_listCurTests.Name = strTestDescription; // Now, handle the "case" nodes XmlNodeList elemList = xmldoc.GetElementsByTagName("case"); for (int i = 0; i < elemList.Count; i++) { ParseCaseNode(elemList[i], dTolerance); } m_listarrTests.Add(m_listCurTests); return true; } catch (Exception ex) { XmlTestExceptionManager.Publish(ex); return false; } }
/// <summary> /// Creates a new operation which chains to the given <see cref="IGeometryOperation"/> for non-intercepted methods. /// </summary> /// <param name="chainOp">The operation to chain to</param> protected TeeGeometryOperation(GeometryMethodOperation chainOp) { _chainOp = chainOp; }
/* public PreparedGeometryTeeOperation() { } */ /// <summary> /// Creates a new operation which chains to the given <see cref="IGeometryOperation"/> /// for non-intercepted methods. /// </summary> /// <param name="chainOp">The operation to chain to</param> public PreparedGeometryTeeOperation(GeometryMethodOperation chainOp) : base(chainOp) { }
/// <summary> /// Creates a new operation which chains to the given {@link GeometryMethodOperation} /// for non-intercepted methods. /// </summary> /// <param name="chainOp">The operation to chain to</param> public PreparedGeometryOperation(GeometryMethodOperation chainOp) { _chainOp = chainOp; }