public ElementSetEntry(IElementSet elementSet) { ElementSetId = elementSet.ID; // pack the element id's into an array var ids = new String[elementSet.ElementCount]; for (var i = 0; i < ids.Length; i++) ids[i] = elementSet.GetElementID(i); // serialize the array into a byte array DataBytes = ByteUtil.toByta(ids); DataLength = DataBytes.Length; }
/// <summary> /// Copy constructor /// </summary> /// <param name="source">The element set to copy</param> public ElementSet(IElementSet source) { _description = source.Description; _id = source.ID; _elementType = source.ElementType; _spatialReference = source.SpatialReference; for (int i = 0; i < source.ElementCount; i++) { Element element = new Element(source.GetElementID(i)); for (int j = 0; j < source.GetVertexCount(i); j++) { double x = source.GetXCoordinate(i, j); double y = source.GetYCoordinate(i, j); double z = source.GetZCoordinate(i, j); element.AddVertex(new Vertex(x, y, z)); } _elements.Add(element); } }
/// <summary> /// Copy constructor /// </summary> /// <param name="source">The element set to copy</param> public ElementSet(IElementSet source) { _description = source.Description; _id = source.ID; _elementType = source.ElementType; _spatialReference = source.SpatialReference; for (int i=0;i<source.ElementCount;i++) { Element element = new Element(source.GetElementID(i)); for (int j=0;j<source.GetVertexCount(i);j++) { double x = source.GetXCoordinate(i,j); double y = source.GetYCoordinate(i,j); double z = source.GetZCoordinate(i,j); element.AddVertex(new Vertex(x,y,z)); } _elements.Add(element); } }
public static void WriteArrayToFile(string path, string dataName, string header, DateTime dateTime, double[] data, IElementSet elementSet) { // don't write out empty data sets if (IsEmpty(data)) return; var dt = string.Format("{0:0000}{1:00}{2:00}", dateTime.Year, dateTime.Month, dateTime.Day); dataName = dataName.Replace(' ', '_'); var filename = dataName + dt + ".txt"; var writer = new StreamWriter(Path.Combine(path, filename), false); writer.WriteLine(header); for (var i = 0; i < data.Length; i++) { var wellID = elementSet.GetElementID(i); writer.Write(wellID.PadLeft(8, ' ')); var value = String.Format("{0:0.0000}", data[i]); writer.Write(value.PadLeft(12, ' ')); writer.WriteLine(); } writer.Close(); }
public void AppendValueSet(String quantityId, IElementSet elementSet, ScalarSet valueSet) { Append(quantityId); for (var index = 0; index < elementSet.ElementCount; index++) { var id = elementSet.GetElementID(index); Append(id + ":" + valueSet.GetScalar(index)); } }
/// <summary> /// Static method that validates an object with an IElementSet interface. The method /// raises an Exception in case IElementSet does not describe a valid ElementSet. /// The checks made are: /// <p>ElementType: Check</p> /// <p>XYPoint: Only one vertex in each element.</p> /// <p>XYPolyline: At least two vertices in each element.</p> /// <p> All line segments in each element has length > 0</p> /// <p>XYPolygon: At least three vertices in each element.</p> /// <p> Area of each element is larger than 0</p> /// <p> All line segments in each element has length > 0</p> /// <p> No line segments within an element crosses.</p> /// </summary> /// /// <param name="elementSet">Object that implement the IElementSet interface</param> /// /// <returns> /// The method has no return value. /// </returns> public static void CheckElementSet(IElementSet elementSet) { try { if (elementSet.ElementType == ElementType.XYPoint) { for (int i = 0; i < elementSet.ElementCount; i++) { try { if (elementSet.GetVertexCount(i) != 1) { throw new System.Exception("Number of vertices in point element is different from 1."); } } catch (System.Exception e) { throw new System.Exception("ElementID = " + elementSet.GetElementID(i), e); } } } else if (elementSet.ElementType == ElementType.XYPolyLine) { for (int i = 0; i < elementSet.ElementCount; i++) { try { XYPolyline xypolyline = new XYPolyline(); for (int j = 0; j < elementSet.GetVertexCount(i); j++) { XYPoint xypoint = new XYPoint(elementSet.GetXCoordinate(i, j), elementSet.GetYCoordinate(i, j)); xypolyline.Points.Add(xypoint); } xypolyline.Validate(); } catch (System.Exception e) { throw new System.Exception("ElementID = " + elementSet.GetElementID(i), e); } } } else if (elementSet.ElementType == ElementType.XYPolygon) { for (int i = 0; i < elementSet.ElementCount; i++) { try { XYPolygon xypolygon = new XYPolygon(); for (int j = 0; j < elementSet.GetVertexCount(i); j++) { XYPoint xypoint = new XYPoint(elementSet.GetXCoordinate(i, j), elementSet.GetYCoordinate(i, j)); xypolygon.Points.Add(xypoint); } xypolygon.Validate(); } catch (System.Exception e) { throw new System.Exception("ElementID = " + elementSet.GetElementID(i), e); } } } } catch (System.Exception e) { throw new System.Exception("ElementSet with ID = " + elementSet.ID + " is invalid", e); } }
/// <summary> /// Static method that validates an object with an IElementSet interface. The method /// raises an Exception in case IElementSet does not describe a valid ElementSet. /// The checks made are: /// <p>ElementType: Check</p> /// <p>XYPoint: Only one vertex in each element.</p> /// <p>XYPolyline: At least two vertices in each element.</p> /// <p> All line segments in each element has length > 0</p> /// <p>XYPolygon: At least three vertices in each element.</p> /// <p> Area of each element is larger than 0</p> /// <p> All line segments in each element has length > 0</p> /// <p> No line segments within an element crosses.</p> /// </summary> /// /// <param name="elementSet">Object that implement the IElementSet interface</param> /// /// <returns> /// The method has no return value. /// </returns> public static void CheckElementSet(IElementSet elementSet) { try { if(elementSet.ElementType == ElementType.XYPoint) { for (int i = 0; i < elementSet.ElementCount; i++) { try { if(elementSet.GetVertexCount(i) != 1) { throw new System.Exception("Number of vertices in point element is different from 1."); } } catch (System.Exception e) { throw new System.Exception("ElementID = "+elementSet.GetElementID(i),e); } } } else if(elementSet.ElementType == ElementType.XYPolyLine) { for (int i = 0; i < elementSet.ElementCount; i++) { try { XYPolyline xypolyline = new XYPolyline(); for (int j = 0; j < elementSet.GetVertexCount(i); j++) { XYPoint xypoint = new XYPoint(elementSet.GetXCoordinate(i,j),elementSet.GetYCoordinate(i,j)); xypolyline.Points.Add(xypoint); } xypolyline.Validate(); } catch (System.Exception e) { throw new System.Exception("ElementID = "+elementSet.GetElementID(i),e); } } } else if(elementSet.ElementType == ElementType.XYPolygon) { for (int i = 0; i < elementSet.ElementCount; i++) { try { XYPolygon xypolygon = new XYPolygon(); for (int j = 0; j < elementSet.GetVertexCount(i); j++) { XYPoint xypoint = new XYPoint(elementSet.GetXCoordinate(i,j),elementSet.GetYCoordinate(i,j)); xypolygon.Points.Add(xypoint); } xypolygon.Validate(); } catch (System.Exception e) { throw new System.Exception("ElementID = "+elementSet.GetElementID(i),e); } } } } catch (System.Exception e) { throw new System.Exception("ElementSet with ID = "+elementSet.ID+" is invalid",e); } }
private void panelViewer_MouseMove(object sender, System.Windows.Forms.MouseEventArgs e) { // write x and y coordinates double x = ((e.X - _margin) / _scale) + _minX; double y = _minY - (e.Y + _margin - panelViewer.ClientSize.Height) / _scale; if (_scale != double.MaxValue) { this.label3.Text = "(" + x.ToString("F3") + ", " + y.ToString("F3") + ")"; } else { this.label3.Text = ""; } // write elementSet ID and element index this.label4.Text = " "; this.label7.Text = " "; this.label8.Text = " "; this.label9.Text = " "; this.label10.Text = " "; this.label11.Text = " "; for (int elementSetNumber = 0; elementSetNumber < this._elementSets.Count; elementSetNumber++) { string elementID = " "; int elementIndex = -9; double distance = 10e30; IElementSet elementSet = (IElementSet)_elementSets[elementSetNumber]; if (elementSetNumber == 0) { this.label7.Text = elementSet.ID.Substring(0, Math.Min(20, elementSet.ID.Length)); } if (elementSetNumber == 1) { this.label9.Text = elementSet.ID.Substring(0, Math.Min(20, elementSet.ID.Length)); } for (int index = 0; index < elementSet.ElementCount; index++) { if (((IElementSet)_elementSets[elementSetNumber]).ElementType == ElementType.XYPolygon) { XYPolygon xyPolygon = new XYPolygon(); for (int i = 0; i < elementSet.GetVertexCount(index); i++) { xyPolygon.Points.Add(new XYPoint(elementSet.GetXCoordinate(index, i), elementSet.GetYCoordinate(index, i))); } if (XYGeometryTools.IsPointInPolygon(x, y, xyPolygon)) { elementID = elementSet.GetElementID(index); elementIndex = index; } } if (((IElementSet)_elementSets[elementSetNumber]).ElementType == ElementType.XYPolyLine) { XYPolyline xyPolyline = new XYPolyline(); for (int i = 0; i < elementSet.GetVertexCount(index); i++) { xyPolyline.Points.Add(new XYPoint(elementSet.GetXCoordinate(index, i), elementSet.GetYCoordinate(index, i))); } double xx = XYGeometryTools.CalculatePolylineToPointDistance(xyPolyline, new XYPoint(x, y)); if (xx < distance) { distance = xx; if (xx < 0.3 * xyPolyline.GetLength()) { elementIndex = index; elementID = elementSet.GetElementID(index); } } } if (elementSetNumber == 0 && elementIndex >= 0) { this.label4.Text = "Index: " + elementIndex.ToString(); this.label8.Text = "ID: " + elementID.Substring(0, Math.Min(17, elementID.Length)); } if (elementSetNumber == 1 && elementIndex >= 0) { this.label10.Text = "Index: " + elementIndex.ToString(); this.label11.Text = "ID: " + elementID.Substring(0, Math.Min(17, elementID.Length)); } } } }