protected override void OnUpdate()
{
// by default, disable the command
Enabled = false;
// if there is not a current edit session, then disable the command
if (m_editorExt.EditState != esriEditState.esriStateEditing)
{
return;
}
// otherwise, check to see if the flow direction is properly set for each edge EID
IUtilityNetwork utilNet = GetCurrentNetwork() as IUtilityNetwork;
IEnumNetEID edgeEIDs = GetCurrentEIDs(esriElementType.esriETEdge);
edgeEIDs.Reset();
for (int i = 0; i < edgeEIDs.Count; i++)
{
int edgeEID = edgeEIDs.Next();
esriFlowDirection flowDir = utilNet.GetFlowDirection(edgeEID);
if (flowDir != esriFlowDirection.esriFDWithFlow)
{
// enable the command if the flow direction is not with the digitized direction
Enabled = true;
// we can return right now, since only one edge needs to have
// incorrect flow direction in order to enable the command
return;
}
}
}
protected override void OnClick()
{
// get the current network
IUtilityNetwork utilNet = GetCurrentNetwork() as IUtilityNetwork;
// create an edit operation enabling an undo for this operation
m_editorExt.StartOperation();
// get a list of the current EIDs for edges in the network
IEnumNetEID edgeEIDs = GetCurrentEIDs(esriElementType.esriETEdge);
// set the flow direction for each edge in the network
edgeEIDs.Reset();
for (int i = 0; i < edgeEIDs.Count; i++)
{
int edgeEID = edgeEIDs.Next();
utilNet.SetFlowDirection(edgeEID, esriFlowDirection.esriFDWithFlow);
}
// stop the edit operation, specifying a name for this operation
m_editorExt.StopOperation("Set Flow Direction");
// refresh the display to update the flow direction arrows
IActiveView mapView = ArcMap.Document.ActiveView;
mapView.PartialRefresh(esriViewDrawPhase.esriViewGraphics, null, null);
}
/// <summary>
/// Converts an Esri enumerable interface to a DotNet IEnumerable.
/// </summary>
/// <param name="esriEnum">An enumerable Esri interface.</param>
/// <returns>The adapted dotnet enumeration.</returns>
public static IEnumerable <int> Enumerate(this IEnumNetEID esriEnum)
{
esriEnum.Reset();
for (int item = esriEnum.Next(); item > 0; item = esriEnum.Next())
{
yield return(item);
}
}
/// <summary>
/// Creates an <see cref="IEnumerable{T}" /> from an <see cref="IEnumNetEID" />
/// </summary>
/// <param name="source">An <see cref="IEnumNetEID" /> to create an <see cref="IEnumerable{T}" /> from.</param>
/// <returns>An <see cref="IEnumerable{T}" /> that contains the datasets from the input source.</returns>
public static IEnumerable <int> AsEnumerable(this IEnumNetEID source)
{
if (source != null)
{
source.Reset();
int eid = source.Next();
while (eid != 0)
{
yield return(eid);
eid = source.Next();
}
}
}
private void method_4(INetwork network)
{
IUtilityNetwork utilityNetwork = (IUtilityNetwork)network;
IEnumNetEID enumNetEID = network.CreateNetBrowser((esriElementType)2);
enumNetEID.Reset();
long num = (long)enumNetEID.Count;
int num2 = 0;
while ((long)num2 < num)
{
int num3 = enumNetEID.Next();
utilityNetwork.SetFlowDirection(num3, (esriFlowDirection)1);
num2++;
}
}
//��˷�ٲ��ҹ����漰�ĵؿ�
public static void UpStreamFindParcels(AxMapControl ppAxMapControl, IEnumNetEID pEnumResultEdges, IGeometricNetwork pGeoNetwork)
{
try
{
IFeatureLayer pFeatLayerSewerLines = FindFeatLayer("Sewer Lines", ppAxMapControl);
IFeatureLayer pFeatLayerParcels = FindFeatLayer("Parcels", ppAxMapControl);
//����ѡ���Sewer�������д������ΰ�
IGeometryCollection pGeomBag = new GeometryBagClass();
object missing = Type.Missing;
int lEID;
int iUserClassID;
int iUserID;
int iUserSubID;
INetElements pNetElements = pGeoNetwork.Network as INetElements;
pEnumResultEdges.Reset();
IFeature pFeature;
for (int j = 0; j <= pEnumResultEdges.Count - 1; j++)
{
lEID = pEnumResultEdges.Next();
pNetElements.QueryIDs(lEID, esriElementType.esriETEdge, out iUserClassID, out iUserID, out iUserSubID);
pFeature = pFeatLayerSewerLines.FeatureClass.GetFeature(iUserID);
pGeomBag.AddGeometry(pFeature.Shape, ref missing, ref missing);
// MessageBox.Show(iUserClassID.ToString()+","+iUserID.ToString()+","+iUserSubID.ToString());
}
//���пռ����˵��Ӳ��������ڲ��ҵؿ���Ϣ
ISpatialFilter pSpatialFilter = new SpatialFilterClass();
pSpatialFilter.Geometry = pGeomBag as IGeometry;
pSpatialFilter.GeometryField = "Shape";
pSpatialFilter.SpatialRel = esriSpatialRelEnum.esriSpatialRelIntersects;
pSpatialFilter.SearchOrder = esriSearchOrder.esriSearchOrderSpatial;
//��ý��浽�ĵؿ���Ϣ
IFeatureCursor pFeatCursor = pFeatLayerParcels.FeatureClass.Search(pSpatialFilter, false);
//���ӱ�ѡ��ĵؿ����ݵ���ͼ��ͼ��ͼ��������
ICompositeGraphicsLayer pComGraphicLayer = new CompositeGraphicsLayerClass();
ILayer pLayer = pComGraphicLayer as ILayer;
pLayer.Name = "��Ӱ��ĵؿ�";
IGraphicsContainer pGraphicContainer = pComGraphicLayer as IGraphicsContainer;
//������ѡ��ĵؿ鵽ͼ��������
ISimpleFillSymbol pSymFill = new SimpleFillSymbolClass();
IFillSymbol pFillSymbol = pSymFill as IFillSymbol;
IRgbColor pRgbColor = new RgbColorClass();
pRgbColor.Red = 0;
pRgbColor.Green = 200;
pRgbColor.Blue = 100;
pFillSymbol.Color = pRgbColor as IColor;
ICartographicLineSymbol pCartoLine = new CartographicLineSymbolClass();
IRgbColor pRgbColor2 = new RgbColorClass();
pRgbColor2.Red = 100;
pRgbColor2.Green = 200;
pRgbColor2.Blue = 100;
pCartoLine.Width = 2;
pCartoLine.Color = pRgbColor2 as IColor;
pFillSymbol.Outline = pCartoLine;
//����������еؿ�����������
IArray pFeatArray = new ArrayClass();
pFeature = pFeatCursor.NextFeature();
while (pFeature != null)
{
IElement pPolyElement = new PolygonElementClass();
IFillShapeElement pFillShapeElement = pPolyElement as IFillShapeElement;
pPolyElement.Geometry = pFeature.Shape;
pFillShapeElement.Symbol = pFillSymbol;
pGraphicContainer.AddElement(pPolyElement, 0);
pFeatArray.Add(pFeature);
pFeature = pFeatCursor.NextFeature();
}
ppAxMapControl.AddLayer(pGraphicContainer as ILayer);
ppAxMapControl.ActiveView.PartialRefresh(esriViewDrawPhase.esriViewGraphics, null, null);
//ma
//frmUpstreamCreateOwnerList frmUpstreamCreateOwnerList1 = new frmUpstreamCreateOwnerList(ppAxMapControl,pFeatLayerParcels, pFeatArray);
//frmUpstreamCreateOwnerList1.Show();
}
catch (Exception eX)
{
MessageBox.Show(eX.Message);
}
}
//�������ĸ߳�����
public static void ProfileGetRelatedSewerElevData(AxMapControl ppAxMapControl, IGeometricNetwork pGeoNetwork, IEnumNetEID pResultEdges, IEnumNetEID pResultJunctions)
{
try
{
//��ñ������Զ�Ӧ�������ٽ��
IArray pSewerElevArray = new ArrayClass();
IEIDHelper pEIDHelper = new EIDHelperClass();
pEIDHelper.GeometricNetwork = pGeoNetwork;
pEIDHelper.ReturnFeatures = true;
pEIDHelper.ReturnGeometries = true;
pEIDHelper.PartialComplexEdgeGeometry = true;
pEIDHelper.AddField("Component_Key2");
IEnumEIDInfo pEnumEIDInfo = pEIDHelper.CreateEnumEIDInfo(pResultEdges);
//������������ص�������¼
pEnumEIDInfo.Reset();
IEIDInfo pEIDInfo = pEnumEIDInfo.Next();
IFeature pFeature = pEIDInfo.Feature;
IGeometry pFeatGeo = pEIDInfo.Geometry;
//�������л�ù�ϵ
IEnumRelationshipClass pEnumRelationshipCls = pFeature.Class.get_RelationshipClasses(esriRelRole.esriRelRoleOrigin);
pEnumRelationshipCls.Reset();
IRelationshipClass pRelationshipCls = pEnumRelationshipCls.Next();
//�����ȷ�Ĺ�ϵ��
string s = "SewerToMainline";
while (pRelationshipCls != null)
{
if (pRelationshipCls.ForwardPathLabel.ToUpper() == s.ToUpper())
break;
else
pRelationshipCls = pEnumRelationshipCls.Next();
}
//��ѯ���ɹ�����ÿ������ص����ݣ������1-1�Ĺ�ϵ����ֻ����һ����¼
// because the arcs are ordered and directional, if the start node is an
// fnode then get subsequent tnode's for the rest of the arcs, else if the
// start node is a tnode, get subsequent fnode's. Related data has elev
// attributes for up and down stream manhole elevs, so related to from and to node of arc.
// get the first junction in the network trace results to determine if the
//first junction is a from-node or a to-node for graphing sewer line elev
if (pRelationshipCls != null)
{
ISet pMainlineRelatedSet;
IRow pMainlineRow;
IEIDHelper pEIDHelper2 = new EIDHelperClass();
pEIDHelper2.GeometricNetwork = pGeoNetwork;
pEIDHelper2.ReturnFeatures = true;
pEIDHelper2.ReturnGeometries = true;
pEIDHelper2.PartialComplexEdgeGeometry = true;
IEnumEIDInfo pEnumEIDInfo2 = pEIDHelper2.CreateEnumEIDInfo(pResultJunctions);
pEnumEIDInfo2.Reset();
//pFeature is the first arc in the network trace results
// check the junctions on the first arc to see which is the starting
// junction, this determines which sewer elev attribute (ups_elev, dwn_elev)
// will be used to calculate the sewer line profile
IEdgeFeature pEdgeFeat = pFeature as IEdgeFeature;
string strStartAttr;
string strMHelevAttr;
double lastelev = 0;
int lastnodeEID;
if (pEnumEIDInfo2.Next().EID == pEdgeFeat.FromJunctionEID)
{
// trace is in the direction of flow, flow goes down hill
strStartAttr = "Ups_elev";
strMHelevAttr = "Dwn_elev";
}
else
{
//trace is in the opposite direction of flow, flow goes up hill
strStartAttr = "Dwn_elev";
strMHelevAttr = "Ups_elev";
}
lastnodeEID = pEnumEIDInfo2.Next().EID;
// create a polyline from the result junctions, make the polyline in the
//direction of the trace, not in the direction of the original arcs/edges
IPolyline pPolyline = new PolylineClass();
IPointCollection pPointColl = pPolyline as IPointCollection;
pEnumEIDInfo2.Reset();
object missing = Type.Missing;
for (int i = 0; i <= pEnumEIDInfo2.Count - 1; i++)
{
pPointColl.AddPoint(pEnumEIDInfo2.Next().Geometry as IPoint, ref missing, ref missing);
}
ISegmentCollection pSegColl = pPolyline as ISegmentCollection;
//�����
ITopologicalOperator pTopoOp = pPolyline as ITopologicalOperator;
pTopoOp.Simplify();
pPolyline.SimplifyNetwork();
pPolyline.Densify(50, 0.01);
pResultEdges.Reset();
pEnumEIDInfo2.Reset();
IPolyline pNewSegPolyline;
IPolyline pPolyLineFeat;
IRelationalOperator pRelOpFeat;
ISegmentCollection pNewSegColl;
ISegmentCollection pSegmentColl = pPolyline as ISegmentCollection;
for (int i = 0; i <= pResultEdges.Count - 1; i++)
{
pMainlineRelatedSet = pRelationshipCls.GetObjectsRelatedToObject(pFeature);
pMainlineRelatedSet.Reset();
pMainlineRow = pMainlineRelatedSet.Next() as IRow;
pPolyLineFeat = pFeature.Shape as IPolyline;
pRelOpFeat = pPolyLineFeat as IRelationalOperator;
for (int j = 0; j <= pSegmentColl.SegmentCount - 1; j++)
{
pNewSegPolyline = new PolylineClass();
pNewSegColl = pNewSegPolyline as ISegmentCollection;
pNewSegColl.AddSegment(pSegmentColl.get_Segment(j), ref missing, ref missing);
if (pRelOpFeat.Contains(pNewSegPolyline as IGeometry))
{
if (j == 0)
{
pSewerElevArray.Add(pMainlineRow.get_Value(pMainlineRow.Fields.FindField(strStartAttr)));
lastelev = Convert.ToDouble(pMainlineRow.get_Value(pMainlineRow.Fields.FindField(strMHelevAttr)));
}
else
{
if (lastelev == Convert.ToDouble(pMainlineRow.get_Value(pMainlineRow.Fields.FindField(strMHelevAttr))))
{
pSewerElevArray.Add(-99);
}
else
{
pSewerElevArray.Add(lastelev);
lastelev = Convert.ToDouble(pMainlineRow.get_Value(pMainlineRow.Fields.FindField(strMHelevAttr)));
}
}
}
}
// get the next feature and check to see what direction it's going and
//adjust the variables accordingly
if (i < pResultEdges.Count - 1)
{
lastnodeEID = pEdgeFeat.ToJunctionEID;
pFeature = pEnumEIDInfo.Next().Feature;
pEdgeFeat = pFeature as IEdgeFeature;
if (pEdgeFeat.FromJunctionEID == lastnodeEID)
strMHelevAttr = "Dwn_elev";
else
strMHelevAttr = "Ups_elev";
}
else
{
pSewerElevArray.Add(pMainlineRow.get_Value(pMainlineRow.Fields.FindField(strMHelevAttr)));
}
}
ProfileCreateGraph(ppAxMapControl, pPolyline, pSewerElevArray);
}
}
catch (Exception eX)
{
MessageBox.Show(eX.Message);
}
}
public static string TracePath(double[] Xs, double[] Ys, string GeoNetName, IApplication app, IMap map, bool traceIndeterminate,
double snapTol, bool selectEdges, out IEnumNetEID juncEIDs, out IEnumNetEID edgeEIDs, out IGeometricNetwork gn)
{
gn = null;
juncEIDs = null;
edgeEIDs = null;
List<INetFlag> pNetFlags = null;
IFlagDisplay pFlagDisplay = null;
IJunctionFlag[] junctionFlags = null;
IEdgeFlag[] edgeFlags = null;
ITraceFlowSolverGEN traceFlowSolver = null;
List<IEdgeFlag> pEdgeFlags = null;
List<IJunctionFlag> pJunctionFlags = null;
INetElementBarriers pEdgeElementBarriers;
INetElementBarriers pJunctionElementBarriers;
ISelectionSetBarriers pSelectionSetBarriers;
List<IGeometricNetwork> gnList = null;
INetworkAnalysisExt pNetAnalysisExt = null;
UID pID = null;
try
{
gnList = Globals.GetGeometricNetworks(ref map);
if (gnList == null)
{
MessageBox.Show(A4LGSharedFunctions.Localizer.GetString("GeoNetToolsError_17a"));
return "";
}
int gnIdx = -1;
gnIdx = Globals.GetGeometricNetwork(ref gnList, GeoNetName);
if (gnIdx != -1)
{
gn = (IGeometricNetwork)gnList[gnIdx];
}
pNetFlags = new List<INetFlag>();
// INetFlag[] netFlags = new INetFlag[Xs.Length];
for (int i = 0; i < Xs.Length; i++)
{
IPoint snappedPoint = null; int EID = -1;
if (gn == null)
{
pNetFlags.Add(Globals.GetJunctionFlag(Xs[i], Ys[i], ref map, ref gnList, snapTol, ref gnIdx,
out snappedPoint, out EID, out pFlagDisplay, true) as INetFlag);
//Set network to trace
if (gnIdx > -1)
gn = gnList[gnIdx] as IGeometricNetwork;
}
else
{
pNetFlags.Add(Globals.GetJunctionFlagWithGN(Xs[i], Ys[i], ref map, ref gn, ref snapTol, out snappedPoint, out EID, out pFlagDisplay, true) as INetFlag);
}
}
if (gn == null || pNetFlags.Count < 1)
{
return (A4LGSharedFunctions.Localizer.GetString("GeoNetToolsError_17b"));
}
if (app != null)
{
pID = new UID();
pID.Value = "esriEditorExt.UtilityNetworkAnalysisExt";
pNetAnalysisExt = (INetworkAnalysisExt)app.FindExtensionByCLSID(pID);
Globals.SetCurrentNetwork(ref pNetAnalysisExt, ref gn);
traceFlowSolver = Globals.CreateTraceFlowSolverFromToolbar(ref pNetAnalysisExt, out pEdgeFlags, out pJunctionFlags, out pEdgeElementBarriers, out pJunctionElementBarriers, out pSelectionSetBarriers) as ITraceFlowSolverGEN;
}
else
{
traceFlowSolver = new TraceFlowSolverClass() as ITraceFlowSolverGEN;
INetSolver netSolver = traceFlowSolver as INetSolver;
netSolver.SourceNetwork = gn.Network;
}
traceFlowSolver.TraceIndeterminateFlow = traceIndeterminate;
if (pEdgeFlags != null)
{
foreach (IEdgeFlag pEdFl in pEdgeFlags)
{
pNetFlags.Add((INetFlag)pEdFl);
}
}
if (pJunctionFlags != null)
{
foreach (IJunctionFlag pJcFl in pJunctionFlags)
{
pNetFlags.Add((INetFlag)pJcFl);
}
}
//if (startNetFlag != null)
//{
// pNetFlags.Add((INetFlag)startNetFlag);
//}
Globals.AddFlagsToTraceSolver(pNetFlags.ToArray(), ref traceFlowSolver, out junctionFlags, out edgeFlags);
int intCount = 1;
System.Object[] segCosts = new System.Object[1];
segCosts[0] = new System.Object();
traceFlowSolver.FindPath(esriFlowMethod.esriFMConnected, esriShortestPathObjFn.esriSPObjFnMinMax,
out juncEIDs, out edgeEIDs, intCount, ref segCosts);
//Select junction features
map.ClearSelection();
IJunctionFlag[] junctionFlag = null;
Globals.SelectJunctions(ref map, ref gn, ref juncEIDs, ref junctionFlag, "", "", "", true);
if (selectEdges)
Globals.SelectEdges(ref map, ref gn, ref edgeEIDs);
edgeEIDs.Reset();
//Draw edge graphics
IEnvelope env = Globals.DrawEdges(ref map, ref gn, ref edgeEIDs);
return edgeEIDs.Count.ToString();
}
catch (Exception Ex)
{
MessageBox.Show(A4LGSharedFunctions.Localizer.GetString("GeoNetToolsLbl_17a") + "\n" + Ex.Message);
return "";
}
}
public void GetFlow(IMap pMap)
{
int num4;
this.m_pPointcol = new MultipointClass();
this.m_eFlowDirection.Clear();
this.m_angle.Clear();
INetwork network = NetworkAnalyst.m_pAnalystGN.Network;
IUtilityNetwork network2 = network as IUtilityNetwork;
IEnumNetEID netEIDs = network.CreateNetBrowser(esriElementType.esriETEdge);
IEnumNetEID teid2 = network.CreateNetBrowser(esriElementType.esriETJunction);
netEIDs.Reset();
int count = netEIDs.Count;
int num2 = teid2.Count;
IEIDHelper helper = new EIDHelperClass
{
GeometricNetwork = NetworkAnalyst.m_pAnalystGN,
OutputSpatialReference = pMap.SpatialReference,
ReturnGeometries = true,
ReturnFeatures = true
};
IEnumEIDInfo info = helper.CreateEnumEIDInfo(teid2);
int num3 = info.Count;
teid2.Reset();
info.Reset();
IPointCollection points = new MultipointClass();
object before = Missing.Value;
for (num4 = 0; num4 < num2; num4++)
{
IPoint inPoint = info.Next().Geometry as IPoint;
points.AddPoint(inPoint, ref before, ref before);
}
info = null;
info = helper.CreateEnumEIDInfo(netEIDs);
num3 = info.Count;
netEIDs.Reset();
info.Reset();
IList list = new ArrayList();
ILine line = new LineClass();
IList list2 = new ArrayList();
int num5 = 0;
for (num4 = 0; num4 < count; num4++)
{
int edgeEID = netEIDs.Next();
this.m_eFlowDirection.Add(network2.GetFlowDirection(edgeEID));
IEIDInfo info2 = info.Next();
IGeometry geometry = info2.Geometry;
IEdgeFeature feature = info2.Feature as IEdgeFeature;
IPointCollection points2 = geometry as IPointCollection;
int pointCount = points2.PointCount;
IPoint other = new PointClass();
IPoint[] pointArray = new IPoint[pointCount];
IRelationalOperator @operator = points as IRelationalOperator;
IPointCollection points3 = new MultipointClass();
int num8 = 0;
for (int i = 0; i < pointCount; i++)
{
other = points2.get_Point(i);
if (@operator.Contains(other))
{
IPoint point3 = points2.get_Point(i);
points3.AddPoint(point3, ref before, ref before);
pointArray[i] = point3;
}
else
{
pointArray[i] = null;
}
}
IPoint[] pointArray2 = new IPoint[pointCount];
num8 = points3.PointCount;
int index = -1;
if (num5 < (points3.PointCount - 1))
{
for (int j = 0; j < pointCount; j++)
{
if (pointArray[j] != null)
{
index++;
}
if (index == num5)
{
index = j;
break;
}
}
IPoint point4 = new PointClass();
pointArray2[index] = pointArray[index];
pointArray2[index + 1] = points2.get_Point(index + 1);
point4.X = (pointArray2[index].X + pointArray2[index + 1].X) / 2.0;
point4.Y = (pointArray2[index].Y + pointArray2[index + 1].Y) / 2.0;
this.m_pPointcol.AddPoint(point4, ref before, ref before);
line.FromPoint = pointArray2[index];
line.ToPoint = pointArray2[index + 1];
this.m_angle.Add(line.Angle);
num5++;
if (num5 == (num8 - 1))
{
num5 = 0;
}
}
}
this.ShowFlow(pMap as IActiveView);
}
//上朔追踪查找管线涉及的地块
public static void UpStreamFindParcels(MainFrm pMainFrm, IEnumNetEID pEnumResultEdges, IGeometricNetwork pGeoNetwork)
{
try
{
AxMapControl axMap = pMainFrm.getMapControl();
IFeatureLayer pFeatLayerSewerLines = FindFeatLayer("Sewer Lines", pMainFrm);
IFeatureLayer pFeatLayerParcels = FindFeatLayer("Parcels", pMainFrm);
//从所选择的Sewer线特征中创建几何包
IGeometryCollection pGeomBag = new GeometryBagClass();
object missing = Type.Missing;
int lEID;
int iUserClassID;
int iUserID;
int iUserSubID;
INetElements pNetElements = pGeoNetwork.Network as INetElements;
pEnumResultEdges.Reset();
IFeature pFeature;
for (int j = 0; j <= pEnumResultEdges.Count - 1; j++)
{
lEID = pEnumResultEdges.Next();
pNetElements.QueryIDs(lEID, esriElementType.esriETEdge, out iUserClassID, out iUserID, out iUserSubID);
pFeature = pFeatLayerSewerLines.FeatureClass.GetFeature(iUserID);
pGeomBag.AddGeometry(pFeature.Shape, ref missing, ref missing);
// MessageBox.Show(iUserClassID.ToString()+","+iUserID.ToString()+","+iUserSubID.ToString());
}
//进行空间拓扑叠加操作以用于查找地块信息
ISpatialFilter pSpatialFilter = new SpatialFilterClass();
pSpatialFilter.Geometry = pGeomBag as IGeometry ;
pSpatialFilter.GeometryField = "Shape";
pSpatialFilter.SpatialRel = esriSpatialRelEnum.esriSpatialRelIntersects;
pSpatialFilter.SearchOrder = esriSearchOrder.esriSearchOrderSpatial;
//获得交叉到的地块信息
IFeatureCursor pFeatCursor=pFeatLayerParcels.FeatureClass.Search(pSpatialFilter, false);
//增加被选择的地块数据到地图的图形图层数据中
ICompositeGraphicsLayer pComGraphicLayer = new CompositeGraphicsLayerClass();
ILayer pLayer = pComGraphicLayer as ILayer ;
pLayer.Name = "受影响的地块";
IGraphicsContainer pGraphicContainer = pComGraphicLayer as IGraphicsContainer;
//增加所选择的地块到图形容器中
ISimpleFillSymbol pSymFill=new SimpleFillSymbolClass();
IFillSymbol pFillSymbol=pSymFill as IFillSymbol;
IRgbColor pRgbColor=new RgbColorClass();
pRgbColor.Red=0;
pRgbColor.Green=200;
pRgbColor.Blue=100;
pFillSymbol.Color=pRgbColor as IColor;
ICartographicLineSymbol pCartoLine=new CartographicLineSymbolClass();
IRgbColor pRgbColor2=new RgbColorClass();
pRgbColor2.Red=100;
pRgbColor2.Green=200;
pRgbColor2.Blue=100;
pCartoLine.Width=2;
pCartoLine.Color =pRgbColor2 as IColor;
pFillSymbol.Outline=pCartoLine;
//创建存放所有地块特征的数组
IArray pFeatArray = new ArrayClass();
pFeature=pFeatCursor.NextFeature();
while (pFeature != null)
{
IElement pPolyElement = new PolygonElementClass();
IFillShapeElement pFillShapeElement = pPolyElement as IFillShapeElement;
pPolyElement.Geometry = pFeature.Shape;
pFillShapeElement.Symbol = pFillSymbol;
pGraphicContainer.AddElement(pPolyElement, 0);
pFeatArray.Add(pFeature);
pFeature = pFeatCursor.NextFeature();
}
axMap.AddLayer(pGraphicContainer as ILayer);
axMap.ActiveView.PartialRefresh(esriViewDrawPhase.esriViewGraphics,null,null);
frmUpstreamCreateOwnerList frmUpstreamCreateOwnerList1 = new frmUpstreamCreateOwnerList(pMainFrm,pFeatLayerParcels, pFeatArray);
frmUpstreamCreateOwnerList1.Show();
}
catch (Exception eX)
{
MessageBox.Show(eX.Message);
}
}
