/// <summary>
/// Converts the given geometry to 2D geometry if it's not 2D otherwsie it will return the same input.
/// </summary>
/// <param name="geometry"></param>
/// <returns></returns>
public static IGeometry CreateFlatGeometry(IGeometry geometry)
{
//if (geometry.IsEmpty || geometry.Dimension == esriGeometryDimension.esriGeometry2Dimension)
// return geometry;
IGeometry flatGeo = null;
if (geometry.GeometryType == esriGeometryType.esriGeometryPoint)
{
IPoint point = geometry as IPoint;
flatGeo = new Point()
{
X = point.X, Y = point.Y, SpatialReference = point.SpatialReference
};
}
else if (geometry.GeometryType == esriGeometryType.esriGeometryPolyline)
{
Polyline newPolyline = new Polyline();
ISegmentCollection newPolylineSegments = newPolyline as ISegmentCollection;
ISegmentCollection segments = geometry as ISegmentCollection;
newPolylineSegments.AddSegmentCollection(segments);
flatGeo = newPolyline as IGeometry;
}
else if (geometry.GeometryType == esriGeometryType.esriGeometryPolygon)
{
Polygon newPolygon = new Polygon();
ISegmentCollection newPolygonSegments = newPolygon as ISegmentCollection;
ISegmentCollection segments = geometry as ISegmentCollection;
newPolygonSegments.AddSegmentCollection(segments);
flatGeo = newPolygon as IGeometry;
}
else if (geometry.GeometryType == esriGeometryType.esriGeometryEnvelope)
{
IEnvelope envelope = geometry as IEnvelope;
Envelope newEnvelope = new Envelope
{
XMin = envelope.XMin,
XMax = envelope.XMax,
YMin = envelope.YMin,
YMax = envelope.YMax
};
flatGeo = newEnvelope as IGeometry;
}
return(flatGeo);
}
public IPolyline GetSubpart(int part, int startSegmentIndex, double startFraction,
int endSegmentIndex, double endFraction)
{
double l0 = IndexedSegmentUtils.GetLength(this, part, 0, 0, startSegmentIndex,
startFraction);
double l1 = IndexedSegmentUtils.GetLength(this, part, startSegmentIndex,
startFraction,
endSegmentIndex, endFraction);
IGeometry sourcePart = ((IGeometryCollection)_segments).Geometry[part];
var sourceCurve = (ICurve)sourcePart;
ICurve subcurve;
sourceCurve.GetSubcurve(l0, l0 + l1, false, out subcurve);
ISegmentCollection line = QaGeometryUtils.CreatePolyline(subcurve);
((IZAware)line).ZAware = ((IZAware)subcurve).ZAware;
line.AddSegmentCollection((ISegmentCollection)subcurve);
return((IPolyline)line);
}
public void OtherRule(string idname, string checkname, string IN_RuleType, string TABLENAME, string SUPTABLE, string inputtext, IHookHelper m_hookHelper)
{
CommonClass common = new CommonClass();
IFeatureClass IN_FeatureClass = common.GetLayerByName(TABLENAME).FeatureClass;
IGeoDataset pGeoDataset = IN_FeatureClass as IGeoDataset;
ISpatialReference spatialReference = pGeoDataset.SpatialReference;
IFeatureClass IN_Sup_FeatureClass = null;
if (SUPTABLE != null)
{
IN_Sup_FeatureClass = common.GetLayerByName(SUPTABLE).FeatureClass;
}
string ErrorFilePath = this.topoDir + "\\" + checkname + idname + ".shp";
if (IN_RuleType == "面多部件检查")
{
try
{
common.CreatShpFile(this.topoDir, spatialReference, esriGeometryType.esriGeometryPolygon, checkname + idname);
List <ErrorEntity> list = new List <ErrorEntity>();
IFeatureCursor cursor = IN_FeatureClass.Search(null, false);
int tempCount = 0;
IFeature pFeature = cursor.NextFeature();
while (pFeature != null)
{
IGeometry pGeo = pFeature.ShapeCopy;
ITopologicalOperator pTopoOperator = pGeo as ITopologicalOperator;
int iCount = 0;
if (IN_FeatureClass.ShapeType == esriGeometryType.esriGeometryPolygon)
{
iCount = (pGeo as IPolygon).ExteriorRingCount;
}
else if (IN_FeatureClass.ShapeType == esriGeometryType.esriGeometryPolyline)
{
iCount = ((pGeo as IPolyline) as IGeometryCollection).GeometryCount;
}
else if (IN_FeatureClass.ShapeType == esriGeometryType.esriGeometryMultipoint)
{
iCount = ((pGeo as IMultipoint) as IPointCollection).PointCount;
}
if (iCount > 1)
{
tempCount++;
common.GenerateSHPFile(pFeature.ShapeCopy, ErrorFilePath);
}
pFeature = cursor.NextFeature();
}
//new ErrorTable().AddErr(list, ErrType.MultiPart, idname);
if (!DicTopoError.ContainsKey(idname))
{
DicTopoError.Add(idname, tempCount);
}
else
{
DicTopoError[idname] = tempCount;
}
Marshal.ReleaseComObject(cursor);
if (tempCount == 0)
{
string shpFolder = System.IO.Path.GetDirectoryName(ErrorFilePath);
IWorkspaceFactory pWorkspaceFac = new ShapefileWorkspaceFactoryClass();
IWorkspace pWorkSpace = pWorkspaceFac.OpenFromFile(ErrorFilePath, 0);
IFeatureWorkspace pFeatureWorkSpace = pWorkSpace as IFeatureWorkspace;
if (System.IO.File.Exists(ErrorFilePath))
{
IFeatureClass pFCChecker = pFeatureWorkSpace.OpenFeatureClass(ErrorFilePath);
if (pFCChecker != null)
{
IDataset pds = pFCChecker as IDataset;
pds.Delete();
}
}
}
}
catch (Exception ex)
{
LogHelper.WriteLog(typeof(TopoChecker), ex);
}
}
else if (IN_RuleType == "面自相交检查")
{
int errorCount = 0;
try
{
common.CreatShpFile(this.topoDir, spatialReference, esriGeometryType.esriGeometryPoint, checkname + idname);
IFeatureLayer pLayer = new FeatureLayer();
pLayer.FeatureClass = IN_FeatureClass;
TopoClassChecker topo = new TopoClassChecker();
IFeatureCursor cursor;
IQueryFilter filter = new QueryFilterClass();
filter.SubFields = pLayer.FeatureClass.OIDFieldName + "," + pLayer.FeatureClass.ShapeFieldName;
cursor = pLayer.FeatureClass.Search(filter, true);
IFeature feature = null;
object missing = Type.Missing;
while ((feature = cursor.NextFeature()) != null)
{
IPoint tempPoint = null;
StringBuilder builder = new StringBuilder();
IGeometryCollection shape = feature.Shape as IGeometryCollection;
for (int i = 0; i < shape.GeometryCount; i++)
{
esriNonSimpleReasonEnum enum2;
IPointCollection newPoints = shape.get_Geometry(i) as IPointCollection;
IRing ring = newPoints as IRing;
int num2 = 0;
if (ring.IsClosed)
{
num2 = 1;
}
PolylineClass o = new PolylineClass();
o.AddPointCollection(newPoints);
o.SpatialReference = spatialReference;
ITopologicalOperator3 @operator = o;
@operator.IsKnownSimple_2 = false;
if ([email protected]_IsSimpleEx(out enum2) && (enum2 == esriNonSimpleReasonEnum.esriNonSimpleSelfIntersections))
{
List <string> list2 = new List <string>();
List <string> list3 = new List <string>();
for (int j = num2; j < newPoints.PointCount; j++)
{
IPoint point = newPoints.get_Point(j);
tempPoint = point;
string item = point.X.ToString() + "," + point.Y.ToString();
if (list2.Contains(item))
{
if (!list3.Contains(item))
{
builder.Append(";");
builder.Append(item);
list3.Add(item);
}
}
else
{
list2.Add(item);
}
}
}
Marshal.ReleaseComObject(o);
o = null;
}
if (builder.Length > 0)
{
errorCount++;
string[] strArray = builder.ToString().Substring(1).Split(new char[] { ';' });
ESRI.ArcGIS.Geometry.IPointCollection pPointCollection1 = new ESRI.ArcGIS.Geometry.MultipointClass();
foreach (string str in strArray)
{
if (!string.IsNullOrEmpty(str))
{
string[] strArray2 = str.Split(new char[] { ',' });
double pX = double.Parse(strArray2[0]);
double pY = double.Parse(strArray2[1]);
ESRI.ArcGIS.Geometry.IPoint point = new ESRI.ArcGIS.Geometry.PointClass();
point.X = pX;
point.Y = pY;
common.GenerateSHPFile(point, ErrorFilePath);
}
}
}
}
Marshal.ReleaseComObject(cursor);
if (errorCount == 0)
{
string shpFolder = System.IO.Path.GetDirectoryName(ErrorFilePath);
IWorkspaceFactory pWorkspaceFac = new ShapefileWorkspaceFactoryClass();
IWorkspace pWorkSpace = pWorkspaceFac.OpenFromFile(ErrorFilePath, 0);
IFeatureWorkspace pFeatureWorkSpace = pWorkSpace as IFeatureWorkspace;
if (System.IO.File.Exists(ErrorFilePath))
{
IFeatureClass pFCChecker = pFeatureWorkSpace.OpenFeatureClass(ErrorFilePath);
if (pFCChecker != null)
{
IDataset pds = pFCChecker as IDataset;
pds.Delete();
}
}
}
}
catch (Exception ex)
{
LogHelper.WriteLog(typeof(TopoChecker), ex);
}
if (!DicTopoError.ContainsKey(idname))
{
DicTopoError.Add(idname, errorCount);
}
else
{
DicTopoError[idname] = errorCount;
}
}
else if (IN_RuleType == "缝隙检查")
{
int errorCount = 0;
try
{
common.CreatShpFile(this.topoDir, spatialReference, esriGeometryType.esriGeometryPolygon, checkname + idname);
this.m_hookHelper = m_hookHelper;
IFeatureClass pFClass = IN_FeatureClass;
//获取空间参考
IGeometry geometryBag = new GeometryBagClass();
IGeoDataset geoDataset = pFClass as IGeoDataset;
geometryBag.SpatialReference = geoDataset.SpatialReference;
////属性过滤
IFeatureCursor featureCursor = pFClass.Search(null, false);
// 遍历游标
IFeature currentFeature = featureCursor.NextFeature();
IGeometryCollection geometryCollection = geometryBag as IGeometryCollection;
object missing = Type.Missing;
while (currentFeature != null)
{
geometryCollection.AddGeometry(currentFeature.Shape, ref missing, ref missing);
currentFeature = featureCursor.NextFeature();
}
// 合并要素
ITopologicalOperator unionedPolygon = null;
unionedPolygon = new Polygon() as ITopologicalOperator;
unionedPolygon.ConstructUnion(geometryCollection as IEnumGeometry);
Marshal.ReleaseComObject(featureCursor);
IPolygon4 pMergerPolygon = unionedPolygon as IPolygon4;
IGeometryBag pOutGeometryBag = pMergerPolygon.ExteriorRingBag; //获取外部环
IGeometryCollection pOutGmtyCollection = pOutGeometryBag as IGeometryCollection;
for (int i = 0; i < pOutGmtyCollection.GeometryCount; i++) //对外部环遍历
{
IGeometry pOutRing = pOutGmtyCollection.get_Geometry(i); //外部环
//【此处可以对外部环进行操作】
IPointCollection pOutRingCollection = pOutRing as IPointCollection;
for (int j = 0; j < pOutRingCollection.PointCount; j++)
{
IPoint pOutRingPoint = pOutRingCollection.get_Point(j);//获取外环上的点
}
IGeometryBag pInteriotGeometryBag = pMergerPolygon.get_InteriorRingBag(pOutRing as IRing); //获取内部环
IGeometryCollection pInteriorGeometryCollection = pInteriotGeometryBag as IGeometryCollection;
for (int j = 0; j < pInteriorGeometryCollection.GeometryCount; j++)
{
ISegmentCollection SegCol = pInteriorGeometryCollection.get_Geometry(j) as ISegmentCollection;
IPolygon PPolygon = new PolygonClass();
ISegmentCollection newSegCol = PPolygon as ISegmentCollection;
newSegCol.AddSegmentCollection(SegCol);
//pInteriorGeometry即为多边形的内部环
IGeometry inRing = PPolygon as IGeometry;
inRing.SpatialReference = geometryBag.SpatialReference;
IArea area = inRing as IArea;
Double getarea = System.Math.Abs(Convert.ToDouble(area.Area));
if (inputtext == null || inputtext == "" || getarea < Convert.ToDouble(inputtext))
{
Boolean flag = true;
ISpatialFilter filter = new SpatialFilterClass();
filter.Geometry = inRing;
filter.SubFields = pFClass.OIDFieldName + "," + pFClass.ShapeFieldName;
filter.SpatialRel = esriSpatialRelEnum.esriSpatialRelIntersects;
IFeatureCursor o = pFClass.Search(filter, true);
IFeature feature = o.NextFeature();
while (feature != null && flag)
{
IPolygon4 pPolygon = feature.Shape as IPolygon4;
IGeometryBag iOutGeometryBag = pPolygon.ExteriorRingBag; //获取外部环
IGeometryCollection iOutGmtyCollection = iOutGeometryBag as IGeometryCollection;
for (int m = 0; m < iOutGmtyCollection.GeometryCount && flag; m++) //对外部环遍历
{
IGeometry outGeo = iOutGmtyCollection.get_Geometry(m);
IGeometryCollection polyGonGeo = new PolygonClass();
polyGonGeo.AddGeometry(outGeo);
IPolygon iPolygon = polyGonGeo as IPolygon;
iPolygon.SimplifyPreserveFromTo();
IRelationalOperator2 pRelationalOperator2 = iPolygon as IRelationalOperator2;
if (!pRelationalOperator2.Contains(inRing))
{
errorCount++;
common.GenerateSHPFile(inRing, ErrorFilePath);
flag = false;
}
}
feature = o.NextFeature();
}
Marshal.ReleaseComObject(o);
}
}
if (errorCount == 0)
{
string shpFolder = System.IO.Path.GetDirectoryName(ErrorFilePath);
IWorkspaceFactory pWorkspaceFac = new ShapefileWorkspaceFactoryClass();
IWorkspace pWorkSpace = pWorkspaceFac.OpenFromFile(ErrorFilePath, 0);
IFeatureWorkspace pFeatureWorkSpace = pWorkSpace as IFeatureWorkspace;
if (System.IO.File.Exists(ErrorFilePath))
{
IFeatureClass pFCChecker = pFeatureWorkSpace.OpenFeatureClass(ErrorFilePath);
if (pFCChecker != null)
{
IDataset pds = pFCChecker as IDataset;
pds.Delete();
}
}
}
}
}
catch (Exception ex)
{
LogHelper.WriteLog(typeof(TopoChecker), ex);
}
if (!DicTopoError.ContainsKey(idname))
{
DicTopoError.Add(idname, errorCount);
}
else
{
DicTopoError[idname] = errorCount;
}
}
else if (IN_RuleType == "面重叠检查")
{
IFeatureClass outIFC = null;
this.m_hookHelper = m_hookHelper;
ESRI.ArcGIS.AnalysisTools.Intersect intersect = new ESRI.ArcGIS.AnalysisTools.Intersect();
string outString = this.topoDir + "\\" + checkname + idname + ".shp";
intersect.in_features = common.GetPathByName(TABLENAME);
intersect.out_feature_class = outString;
Geoprocessor geoProcessor = new Geoprocessor();
geoProcessor.OverwriteOutput = true;
try
{
if (this.gp == null)
{
this.gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
}
IGeoProcessorResult result = (IGeoProcessorResult)this.gp.Execute(intersect, null);
if (result.Status != ESRI.ArcGIS.esriSystem.esriJobStatus.esriJobSucceeded)
{
Console.WriteLine("gp工具执行错误");
}
else
{
outIFC = this.gp.Open(result.ReturnValue) as IFeatureClass;
}
}
catch (Exception ex)
{
LogHelper.WriteLog(typeof(TopoChecker), ex);
Console.WriteLine(ex.Message);
}
if (outIFC.FeatureCount(null) == 0)
{
string shpFolder = System.IO.Path.GetDirectoryName(ErrorFilePath);
IWorkspaceFactory pWorkspaceFac = new ShapefileWorkspaceFactoryClass();
IWorkspace pWorkSpace = pWorkspaceFac.OpenFromFile(ErrorFilePath, 0);
IFeatureWorkspace pFeatureWorkSpace = pWorkSpace as IFeatureWorkspace;
if (System.IO.File.Exists(ErrorFilePath))
{
IFeatureClass pFCChecker = pFeatureWorkSpace.OpenFeatureClass(ErrorFilePath);
if (pFCChecker != null)
{
IDataset pds = pFCChecker as IDataset;
pds.Delete();
}
}
}
if (!DicTopoError.ContainsKey(idname))
{
DicTopoError.Add(idname, outIFC.FeatureCount(null));
}
else
{
DicTopoError[idname] = outIFC.FeatureCount(null);
}
}
else if (IN_RuleType == "面重叠检查(与其他图层)")
{
IFeatureClass outIFC = null;
this.m_hookHelper = m_hookHelper;
ESRI.ArcGIS.AnalysisTools.Intersect intersect = new ESRI.ArcGIS.AnalysisTools.Intersect();
string outString = this.topoDir + "\\" + checkname + idname + ".shp";
intersect.in_features = @common.GetPathByName(TABLENAME) + ";" + @common.GetPathByName(SUPTABLE);
intersect.out_feature_class = outString;
Geoprocessor geoProcessor = new Geoprocessor();
geoProcessor.OverwriteOutput = true;
try
{
if (this.gp == null)
{
this.gp = new ESRI.ArcGIS.Geoprocessor.Geoprocessor();
}
IGeoProcessorResult result = (IGeoProcessorResult)this.gp.Execute(intersect, null);
if (result.Status != ESRI.ArcGIS.esriSystem.esriJobStatus.esriJobSucceeded)
{
Console.WriteLine("gp工具执行错误");
}
else
{
outIFC = this.gp.Open(result.ReturnValue) as IFeatureClass;
}
}
catch (Exception ex)
{
Console.WriteLine(ex.Message);
LogHelper.WriteLog(typeof(TopoChecker), ex);
}
if (outIFC.FeatureCount(null) == 0)
{
string shpFolder = System.IO.Path.GetDirectoryName(ErrorFilePath);
IWorkspaceFactory pWorkspaceFac = new ShapefileWorkspaceFactoryClass();
IWorkspace pWorkSpace = pWorkspaceFac.OpenFromFile(ErrorFilePath, 0);
IFeatureWorkspace pFeatureWorkSpace = pWorkSpace as IFeatureWorkspace;
if (System.IO.File.Exists(ErrorFilePath))
{
IFeatureClass pFCChecker = pFeatureWorkSpace.OpenFeatureClass(ErrorFilePath);
if (pFCChecker != null)
{
IDataset pds = pFCChecker as IDataset;
pds.Delete();
}
}
}
if (!DicTopoError.ContainsKey(idname))
{
DicTopoError.Add(idname, outIFC.FeatureCount(null));
}
else
{
DicTopoError[idname] = outIFC.FeatureCount(null);
}
}
Marshal.ReleaseComObject(IN_FeatureClass);
if (SUPTABLE != null)
{
Marshal.ReleaseComObject(IN_Sup_FeatureClass);
}
}
protected override void OnClick()
{
IEditor pEd = (IEditor)ArcMap.Editor;
IEditor2 pEd2 = (IEditor2)ArcMap.Editor;
IEditProperties pEdProps1 = pEd as IEditProperties;
IEditProperties2 pEdProps2 = pEd as IEditProperties2;
IEditSketch2 pSketch2 = ArcMap.Editor as IEditSketch2;
ISegmentCollection pSegColl = pSketch2.Geometry as ISegmentCollection;
double dLineDirection = 0;
ISketchTool sketchTool = ArcMap.Application.CurrentTool.Command as ISketchTool;
if (sketchTool.Constraint == esriSketchConstraint.esriConstraintAngle)
{
dLineDirection = sketchTool.AngleConstraint;
}
else
{
ILine pRubberBandLine = new LineClass();
pRubberBandLine.PutCoords(pSketch2.LastPoint, pEd2.Location);
dLineDirection = pRubberBandLine.Angle;
}
IAngularConverter pAngConv = new AngularConverterClass();
pAngConv.SetAngle(dLineDirection, esriDirectionType.esriDTPolar, esriDirectionUnits.esriDURadians);
int iSegCnt = pSegColl.SegmentCount;
dlgSpiralParameters SpiralEntryDialog = new dlgSpiralParameters();
string sBearing = pAngConv.GetString(pEdProps2.DirectionType, pEdProps2.DirectionUnits, pEdProps2.AngularUnitPrecision);
SpiralEntryDialog.txtDirection.Text = sBearing;
//Display the dialog
DialogResult pDialogResult = SpiralEntryDialog.ShowDialog();
esriCurveDensifyMethod DensifyMethod = esriCurveDensifyMethod.esriCurveDensifyByAngle; //default
double dDensifyParameter = 2 * Math.PI / 180; //2 degrees //default
if (SpiralEntryDialog.optCustomDensification.Checked)
{
DensifyMethod = (esriCurveDensifyMethod)SpiralEntryDialog.cboDensificationType.SelectedIndex;
if (DensifyMethod == esriCurveDensifyMethod.esriCurveDensifyByAngle)
{
dDensifyParameter = Convert.ToDouble(SpiralEntryDialog.numAngleDensification.Value) * Math.PI / 180;
}
else
{
if (!Double.TryParse(SpiralEntryDialog.txtDensifyValue.Text, out dDensifyParameter))
{
dDensifyParameter = 2;
}
}
}
if (pDialogResult != DialogResult.OK)
{
return;
}
if (SpiralEntryDialog.txtStartRadius.Text.ToLower().Trim() == "infinity" && SpiralEntryDialog.txtEndRadius.Text.ToLower().Trim() == "infinity")
{
return;
}
double dSpiralRadius1 = Double.MaxValue; //default to infinity
double dFromCurvature = 0;
if (SpiralEntryDialog.txtStartRadius.Text.ToLower() != "infinity")
{
if (Double.TryParse(SpiralEntryDialog.txtStartRadius.Text, out dSpiralRadius1))
{
dFromCurvature = 1 / dSpiralRadius1;
}
else
{
return;
}
}
double dSpiralRadius2 = Double.MaxValue; //default to infinity
double dToCurvature = 0;
if (SpiralEntryDialog.txtEndRadius.Text.ToLower() != "infinity")
{
if (Double.TryParse(SpiralEntryDialog.txtEndRadius.Text, out dSpiralRadius2))
{
dToCurvature = 1 / dSpiralRadius2;
}
else
{
return;
}
}
bool bIsCCW = (dSpiralRadius1 > dSpiralRadius2) ? SpiralEntryDialog.optRight.Checked : SpiralEntryDialog.optLeft.Checked;
bool bSpecialCaseCircularArc = (dSpiralRadius1 == dSpiralRadius2);
if (!pAngConv.SetString(SpiralEntryDialog.txtDirection.Text, pEdProps2.DirectionType, pEdProps2.DirectionUnits))
{
return;
}
double dNorthAzimuthRadians = pAngConv.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDURadians);
IVector3D pVec = new Vector3DClass();
pVec.PolarSet(dNorthAzimuthRadians, 0, 500);
IPoint pTangentPoint = new PointClass();
pTangentPoint.PutCoords(pSketch2.LastPoint.X + pVec.XComponent, pSketch2.LastPoint.Y + pVec.YComponent);
//double dStreamingTol = pEdProps1.StreamTolerance;
//if (dStreamingTol == 0)
// dStreamingTol = 0.001 * 5000; //metric
//double dSpiralOffsetGeometryPrecision = 0.001 * 250; //metric 0.25 m
IPolyline6 theSpiralPolyLine = null;
double dExitTangent = 0;
if (SpiralEntryDialog.cboPathLengthParameter.SelectedIndex == 0)
{
double dSpiralArcLength;
if (!Double.TryParse(SpiralEntryDialog.txtPathLengthParameter.Text, out dSpiralArcLength))
{
return;
}
if (bSpecialCaseCircularArc)
{
ILine pInTangentLine = new LineClass();
pInTangentLine.PutCoords(pSketch2.LastPoint, pTangentPoint);
ISegment pTangentSegment = (ISegment)pInTangentLine;
IConstructCircularArc2 pCircArcConstr = new ESRI.ArcGIS.Geometry.CircularArcClass() as IConstructCircularArc2;
pCircArcConstr.ConstructTangentRadiusArc(pTangentSegment, false, bIsCCW, dSpiralRadius1, dSpiralArcLength);
ICircularArc pArcSegment = pCircArcConstr as ICircularArc;
//Get chord Line from tangent curve constructor
ILine pChordLine = new LineClass();
pChordLine.PutCoords(pArcSegment.FromPoint, pArcSegment.ToPoint);
double dPolarRadians = pChordLine.Angle; //to get the chord azimuth
pCircArcConstr.ConstructBearingRadiusArc(pSketch2.LastPoint, dPolarRadians, bIsCCW, dSpiralRadius1, dSpiralArcLength);
dExitTangent = pArcSegment.ToAngle + Math.PI / 2;
ISegmentCollection segCollection = new PolylineClass() as ISegmentCollection;
object obj = Type.Missing;
segCollection.AddSegment((ISegment)pArcSegment, ref obj, ref obj);
theSpiralPolyLine = segCollection as IPolyline6;
}
else
{
theSpiralPolyLine = ConstructSpiralbyLength(pSketch2.LastPoint, pTangentPoint, dFromCurvature, dToCurvature, bIsCCW, dSpiralArcLength,
DensifyMethod, dDensifyParameter, out dExitTangent);
}
}
if (SpiralEntryDialog.cboPathLengthParameter.SelectedIndex == 1)
{
if (!pAngConv.SetString(SpiralEntryDialog.txtPathLengthParameter.Text, esriDirectionType.esriDTPolar, pEdProps2.DirectionUnits))
{
return;
}
double dSpiralDeltaAngle = pAngConv.GetAngle(esriDirectionType.esriDTPolar, esriDirectionUnits.esriDURadians);
if (bSpecialCaseCircularArc)
{
ILine pInTangentLine = new LineClass();
pInTangentLine.PutCoords(pSketch2.LastPoint, pTangentPoint);
ISegment pTangentSegment = (ISegment)pInTangentLine;
IConstructCircularArc2 pCircArcConstr = new ESRI.ArcGIS.Geometry.CircularArcClass() as IConstructCircularArc2;
pCircArcConstr.ConstructTangentRadiusAngle(pTangentSegment, false, bIsCCW, dSpiralRadius1, dSpiralDeltaAngle);
ICircularArc pArcSegment = pCircArcConstr as ICircularArc;
//Get chord Line from tangent curve constructor
ILine pChordLine = new LineClass();
pChordLine.PutCoords(pArcSegment.FromPoint, pArcSegment.ToPoint);
double dPolarRadians = pChordLine.Angle; //to get the chord azimuth
pCircArcConstr.ConstructBearingRadiusAngle(pSketch2.LastPoint, dPolarRadians, bIsCCW, dSpiralRadius1, dSpiralDeltaAngle);
dExitTangent = pArcSegment.ToAngle + Math.PI / 2;
ISegmentCollection segCollection = new PolylineClass() as ISegmentCollection;
object obj = Type.Missing;
segCollection.AddSegment((ISegment)pArcSegment, ref obj, ref obj);
theSpiralPolyLine = segCollection as IPolyline6;
}
else
{
theSpiralPolyLine = ConstructSpiralbyDeltaAngle(pSketch2.LastPoint, pTangentPoint, dFromCurvature, dToCurvature, bIsCCW, dSpiralDeltaAngle,
DensifyMethod, dDensifyParameter, out dExitTangent);
}
}
if (theSpiralPolyLine == null)
{
MessageBox.Show("A spiral could not be created with the entered parameters.");
return;
}
ISegmentCollection pSpiralSegCollection = theSpiralPolyLine as ISegmentCollection;
//Start a sketch operation and insert the new envelope into the sketch
ISketchOperation2 sketchOp = new SketchOperationClass();
sketchOp.Start(ArcMap.Editor);
sketchOp.MenuString = "Add Spiral";
pSegColl.AddSegmentCollection(pSpiralSegCollection);
IGeometry geom = pSegColl as IGeometry;
pSketch2.Geometry = geom;
//set the angle constraint to the exit tangent of the spiral
sketchTool.Constraint = esriSketchConstraint.esriConstraintAngle;
sketchTool.AngleConstraint = dExitTangent;
sketchOp.Finish(ArcMap.Document.ActiveView.Extent, esriSketchOperationType.esriSketchOperationGeneral, null);
}
/// <summary>
/// 合并多条多义线,如果合并的多义线不是简单的多义线则抛出异常
/// </summary>
/// <param name="pPolylines">多义线集</param>
/// <returns>多义线</returns>
public static IPolyline UnionPolylines(IPolyline[] pPolylines)
{
// 第一条线段
int indexFirst = -1;
int degree = 0;
IRelationalOperator pRO = null;
int nSelected = pPolylines.Length;
IPolyline pRetPolyline = new PolylineClass();
ITopologicalOperator pTopoOper = (ITopologicalOperator)pRetPolyline;
IGeometryCollection pGeometryCollection = new GeometryBagClass();
for (int i = 0; i < pPolylines.Length; i++)
{
object o = Type.Missing;
pGeometryCollection.AddGeometry(pPolylines[i],
ref o, ref o);
}
pTopoOper.ConstructUnion((IEnumGeometry)pGeometryCollection);
IGeometryCollection pGeometryColl = (IGeometryCollection)pTopoOper;
if (pGeometryColl.GeometryCount > 1)
{
throw new Exception("线段的空间连接不正确");
}
return((IPolyline)pTopoOper);
// AddGeometry
// 数据检查
//ConstructUnion
/*
* double tol = GeometryHelper.ConvertPixelsToMapUnits(pActiveView, 4);
* IPoint pHitPoint = null;
* double hitDist = 0;
* int partIndex = 0;
* int vertexIndex = 0;
* int vertexOffset = 0;
* bool vertex = false;
* if (EditHelper.HitTest(tol, _pMenuPosition, pFeature, ref pHitPoint, ref hitDist, ref partIndex, ref vertexIndex, ref vertexOffset, ref vertex))
* {
*
* }
*/
for (int i = 0; i < nSelected; i++)
{
int nTouch = 0;
pRO = (IRelationalOperator)pPolylines[i];
IHitTest hittest = (IHitTest)pRO;
for (int j = 0; j < nSelected; j++)
{
if (i != j && pRO.Touches(pPolylines[j]))
{
nTouch++;
}
}
if (nTouch == 0 || nTouch > 2)
{
throw new Exception("line touch error");
}
else if (nTouch == 1)
{
if (indexFirst == -1)
{
indexFirst = i;
}
if (++degree > 2)
{
throw new Exception("multi patchs");
}
}
}
// 依据第一条线topo有序
if (indexFirst == -1)
{
throw new Exception("line circle");
}
IPolyline pTemp = pPolylines[indexFirst];
pPolylines[indexFirst] = pPolylines[0];
pPolylines[0] = pTemp;
IPolyline pPolyline = new PolylineClass();
ISegmentCollection pSegments = (ISegmentCollection)pPolyline;
pSegments.AddSegmentCollection((ISegmentCollection)pPolylines[0]);
for (int i = 0; i < nSelected - 1; i++)
{
pRO = (IRelationalOperator)pPolylines[i];
for (int j = i + 1; j < nSelected; j++)
{
if (pRO.Touches(pPolylines[j]))
{
pTemp = pPolylines[j];
pPolylines[j] = pPolylines[i + 1];
pPolylines[i + 1] = pTemp;
if (IdentialPoint(pPolylines[i].FromPoint, pPolylines[i + 1].ToPoint))
{
//pSegments.AddSegmentCollection();
}
break;
}
}
}
return(null);
}
/// <summary>
/// 缝隙检查。融合后去内环。
/// </summary>
/// <param name="pFeature"></param>
/// <returns></returns>
public List <Dictionary <string, IGeometry> > CheckFeatureGap(IFeatureClass pFClass, string inputtext)
{
List <Dictionary <string, IGeometry> > listGeo = new List <Dictionary <string, IGeometry> >();
if (pFClass == null)
{
return(null);
}
//Stopwatch watch = new Stopwatch();
//watch.Start();
//获取空间参考
IGeometry geometryBag = new GeometryBagClass();
IGeoDataset geoDataset = pFClass as IGeoDataset;
geometryBag.SpatialReference = geoDataset.SpatialReference;
////属性过滤
//ISpatialFilter queryFilter = new SpatialFilterClass();
//queryFilter.SubFields = "Shape";
IFeatureCursor featureCursor = pFClass.Search(null, false);
// 遍历游标
IFeature currentFeature = featureCursor.NextFeature();
if (currentFeature == null)
{
return(null);
}
IGeometryCollection geometryCollection = geometryBag as IGeometryCollection;
object missing = Type.Missing;
while (currentFeature != null)
{
geometryCollection.AddGeometry(currentFeature.Shape, ref missing, ref missing);
currentFeature = featureCursor.NextFeature();
}
// 合并要素
ITopologicalOperator unionedPolygon = null;
if (pFClass.ShapeType == esriGeometryType.esriGeometryPoint)
{
unionedPolygon = new Multipoint() as ITopologicalOperator;
unionedPolygon.ConstructUnion(geometryCollection as IEnumGeometry);
}
else if (pFClass.ShapeType == esriGeometryType.esriGeometryPolyline)
{
unionedPolygon = new Polyline() as ITopologicalOperator;
unionedPolygon.ConstructUnion(geometryCollection as IEnumGeometry);
}
else
{
unionedPolygon = new Polygon() as ITopologicalOperator;
unionedPolygon.ConstructUnion(geometryCollection as IEnumGeometry);
}
Marshal.ReleaseComObject(featureCursor);
IPolygon4 pMergerPolygon = unionedPolygon as IPolygon4;
IGeometryBag pOutGeometryBag = pMergerPolygon.ExteriorRingBag; //获取外部环
IGeometryCollection pOutGmtyCollection = pOutGeometryBag as IGeometryCollection;
for (int i = 0; i < pOutGmtyCollection.GeometryCount; i++) //对外部环遍历
{
IGeometry pOutRing = pOutGmtyCollection.get_Geometry(i); //外部环
//【此处可以对外部环进行操作】
IPointCollection pOutRingCollection = pOutRing as IPointCollection;
for (int j = 0; j < pOutRingCollection.PointCount; j++)
{
IPoint pOutRingPoint = pOutRingCollection.get_Point(j);//获取外环上的点
}
IGeometryBag pInteriotGeometryBag = pMergerPolygon.get_InteriorRingBag(pOutRing as IRing); //获取内部环
IGeometryCollection pInteriorGeometryCollection = pInteriotGeometryBag as IGeometryCollection;
for (int j = 0; j < pInteriorGeometryCollection.GeometryCount; j++)
{
ISegmentCollection SegCol = pInteriorGeometryCollection.get_Geometry(j) as ISegmentCollection;
IPolygon PPolygon = new PolygonClass();
ISegmentCollection newSegCol = PPolygon as ISegmentCollection;
newSegCol.AddSegmentCollection(SegCol);
//pInteriorGeometry即为多边形的内部环
IGeometry inRing = PPolygon as IGeometry;
inRing.SpatialReference = geometryBag.SpatialReference;
IArea area = inRing as IArea;
Double getarea = System.Math.Abs(Convert.ToDouble(area.Area));
if (inputtext == null || inputtext == "" || getarea < Convert.ToDouble(inputtext))
{
Boolean flag = true;
ISpatialFilter filter = new SpatialFilterClass();
filter.Geometry = inRing;
filter.SubFields = pFClass.OIDFieldName + "," + pFClass.ShapeFieldName;
filter.SpatialRel = esriSpatialRelEnum.esriSpatialRelIntersects;
IFeatureCursor o = pFClass.Search(filter, true);
IFeature feature = o.NextFeature();
while (feature != null && flag)
{
Console.WriteLine(feature.OID);
IPolygon4 pPolygon = feature.Shape as IPolygon4;
IGeometryBag iOutGeometryBag = pPolygon.ExteriorRingBag; //获取外部环
IGeometryCollection iOutGmtyCollection = iOutGeometryBag as IGeometryCollection;
for (int m = 0; m < iOutGmtyCollection.GeometryCount && flag; m++) //对外部环遍历
{
IGeometry outGeo = iOutGmtyCollection.get_Geometry(m);
IGeometryCollection polyGonGeo = new PolygonClass();
polyGonGeo.AddGeometry(outGeo);
IPolygon iPolygon = polyGonGeo as IPolygon;
iPolygon.SimplifyPreserveFromTo();
IRelationalOperator2 pRelationalOperator2 = iPolygon as IRelationalOperator2;
if (!pRelationalOperator2.Contains(inRing))
{
Dictionary <string, IGeometry> itemDic = new Dictionary <string, IGeometry>();
itemDic.Add(feature.OID.ToString(), inRing);
listGeo.Add(itemDic);
flag = false;
}
}
feature = o.NextFeature();
}
Marshal.ReleaseComObject(o);
}
}
}
if (listGeo.Count > 0)
{
return(listGeo);
}
else
{
return(null);
}
}