private void btnAddToEditor_Click(object sender, EventArgs e)
{
if (tools.utils.IsNumeric(txtConvergence.Text) == false)
{
MessageBox.Show("The convergence angle is not valid.");
return;
}
IEditProperties2 pEditProps = (IEditProperties2)m_pEditor;
pEditProps.UseGroundToGrid = true;
//pEditProps.DirectionType = ESRI.ArcGIS.esriSystem.esriDirectionType.esriDTNorthAzimuth;
//pEditProps.DirectionUnits = ESRI.ArcGIS.esriSystem.esriDirectionUnits.esriDUDecimalDegrees;
pEditProps.AngularUnitPrecision = 10;
//The units are in radians so you need to convert them first
IAngularConverter angularConverter = new AngularConverterClass();
angularConverter.SetAngle(Convert.ToDouble(txtConvergence.Text), esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDUDecimalDegrees);
double angRad = angularConverter.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDURadians);
//angularConverter.SetString("0-0-1", esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDUDegreesMinutesSeconds);
pEditProps.AngularCorrectionOffset = angularConverter.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDURadians);
pEditProps.AngularCorrectionOffset = angRad ;
this.Hide();
}
object OnGridCellEdit(ref int row, ref int col, ref object inValue)
{
string m_sFieldName = m_ParcelEditHelperExt.FieldName;
bool m_bRecordFieldName = m_ParcelEditHelperExt.RecordToField;
object OutValue = inValue;
if (col == 2 && m_bRecordFieldName)//this is the bearing field
{
IParcelConstruction pTrav = (IParcelConstruction)m_pParcEditorMan.ParcelConstruction;
IGSLine pGSLine = null;
bool IsCompleteLine = (pTrav.GetLine(row, ref pGSLine));
//true means it's a complete line
//false means it's a partial line
//note that the type of the inValue must be honoured when returning the value from this function, in this case we are rebuilding the string for the same value, unaltered.
//however the other relevant work done is to set the record field to the same value to capture what was entered prior to resequencing and potential bearing changes.
//this happens either for a complete line or a partial one
//The logic could be changed to be more conservative and only capture the record for a partial line (IsCompleteLine==false), since that would only record the first time it's cogo'd,
//compared to this code that records edits of completed lines *as well as* partial lines
IAngularConverter pAngConv = new AngularConverterClass();
string sBear = Convert.ToString(inValue);
sBear = sBear.Replace("°", "-");
sBear = sBear.Replace("'", "-");
sBear = sBear.Replace("\"", "");
if (!pAngConv.SetString(sBear, esriDirectionType.esriDTQuadrantBearing, esriDirectionUnits.esriDUDegreesMinutesSeconds)) //TODO: base this on Plan properties
{
return(OutValue);
}
double brgRecord = pAngConv.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDUDecimalDegrees);
sBear = pAngConv.GetString(esriDirectionType.esriDTQuadrantBearing, esriDirectionUnits.esriDUDegreesMinutesSeconds, 0);
IParcelConstruction4 pTrav4 = pTrav as IParcelConstruction4;
pTrav4.UpdateGridFromGSLines(true, false);
sBear = sBear.Replace(" ", "");
sBear = sBear.Insert(sBear.Length - 1, "\"");
int i = sBear.LastIndexOf('-');
sBear = sBear.Insert(i, "'");
i = sBear.IndexOf('-');
sBear = sBear.Insert(i, "°");
sBear = sBear.Replace("-", "");
IGSAttributes pLineAtts = (IGSAttributes)pGSLine;
pLineAtts.SetProperty(m_sFieldName, sBear);
return(sBear);
//note that the type of the inValue must be honoured when returning the value from this function.
}
return(OutValue);
}
private void CreateParcelFromSegmentCollection(ISegmentCollection Segments, string PlanName)
{
int iCnt = Segments.SegmentCount;
ISegment[] pSegmentArr = new ISegment[iCnt];
for (int j = 0; j < iCnt; j++)
{
pSegmentArr[j] = Segments.get_Segment(j);
}
ICadastralEditor pCadEd = (ICadastralEditor)ArcMap.Application.FindExtensionByName("esriCadastralUI.CadastralEditorExtension");
IParcelEditManager pParcEditorMan = (IParcelEditManager)pCadEd;
try
{
ICadastralPacketManager pCadPacketMan = (ICadastralPacketManager)pCadEd;
bool bStartedWithPacketOpen = pCadPacketMan.PacketOpen;
if (!bStartedWithPacketOpen)
{
m_editor.StartOperation();
}
//1. Start map edit session
ICadastralMapEdit pCadMapEdit = (ICadastralMapEdit)pCadEd;
pCadMapEdit.StartMapEdit(esriMapEditType.esriMEEmpty, "NewParcel", false);
//2. Get job packet
ICadastralPacket pCadaPacket = pCadPacketMan.JobPacket;
//3. Create Plan (new)
string sPlanName = PlanName;
//first check to ensure plan is not already in the database.
IGSPlan pGSPlan = FindFabricPlanByName(sPlanName, pCadEd);
if (pGSPlan == null)
{
//if plan is null, it was not found and can be created
pGSPlan = new GSPlanClass();
// 3.a set values
pGSPlan.Accuracy = 4;
pGSPlan.Name = sPlanName;
}
//3.b Add the plan to the job packet
ICadastralPlan pCadaPlan = (ICadastralPlan)pCadaPacket;
pCadaPlan.AddPlan(pGSPlan);
//4. Create Parcel
ICadastralParcel pCadaParcel = (ICadastralParcel)pCadaPacket;
IGSParcel pNewGSParcel = new GSParcelClass();
//Make sure that any extended attributes on the parcel have their default values set
IGSAttributes pGSAttributes = (IGSAttributes)pNewGSParcel;
if (pGSAttributes != null)
{
ICadastralObjectSetup pCadaObjSetup = (ICadastralObjectSetup)pParcEditorMan;
pCadaObjSetup.AddExtendedAttributes(pGSAttributes);
pCadaObjSetup.SetDefaultValues(pGSAttributes);
}
//4a. Add the parcel to the packet. (do this before addlines)
// - This will enable us to Acquire the parcel ID,
// - Having the parcel attached to the packet allows InsertLine to function.
pCadaParcel.AddParcel(pNewGSParcel);
pNewGSParcel.Lot = "NewParcel";
pNewGSParcel.Type = 7;
//4b. Set Plan (created above)
IGSPlan thePlan = pCadaPlan.GetPlan(sPlanName);
pNewGSParcel.Plan = thePlan;
//4c. Insert GSLines (from new) into GSParcel
//4d. To bypass join, you can create GSPoints and assign those point IDs to the GSLines.
ICadastralPoints pCadaPoints = (ICadastralPoints)pCadaPacket;
IMetricUnitConverter pMetricUnitConv = (IMetricUnitConverter)pCadEd;
//Set up the initial start point, POB
IPoint pPt1 = Segments.get_Segment(0).FromPoint;
IZAware pZAw = (IZAware)pPt1;
pZAw.ZAware = true;
pPt1.Z = 0; //defaulting to 0
//Convert the point into metric units, and get a new (in-mem) point id
IGSPoint pGSPointFrom = pMetricUnitConv.SetGSPoint(pPt1);
pCadaPoints.AddPoint(pGSPointFrom);
int iID1 = pGSPointFrom.Id;
int iID1_Orig = iID1;
int index = 0;
IGSLine pGSLine = null;
//++++++++++++ Add Courses ++++++++++++++
int iID2 = -1;
bool bIsLoop = (Math.Abs(pPt1.X - Segments.get_Segment(iCnt - 1).ToPoint.X)) < 0.01 &&
(Math.Abs(pPt1.Y - Segments.get_Segment(iCnt - 1).ToPoint.Y)) < 0.01;
IAngularConverter pAngConv = new AngularConverterClass();
for (int j = 0; j < iCnt; j++)
{
pSegmentArr[j] = Segments.get_Segment(j);
double dDir = 0; //radians north azimuth
ILine pLineOrChord = new LineClass();
pLineOrChord.PutCoords(pSegmentArr[j].FromPoint, pSegmentArr[j].ToPoint);
if (pAngConv.SetAngle(pLineOrChord.Angle, esriDirectionType.esriDTPolar, esriDirectionUnits.esriDURadians))
{
dDir = pAngConv.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDURadians);
}
double dDist = pLineOrChord.Length;
double dRadius = 0;
int iAccuracy = -1;
int iUserLineType = -1;
int iCategory = -1;
if (pSegmentArr[j] is ICircularArc)
{
ICircularArc pCircArc = pSegmentArr[j] as ICircularArc;
dRadius = pCircArc.Radius;
if (pCircArc.IsCounterClockwise)
{
dRadius = dRadius * -1;
}
}
bool bComputeToPoint = (bIsLoop && (j < iCnt - 1)) || !bIsLoop;
//From, Direction (NAz Radians), Distance (map's projection units), Radius
pGSLine = CreateGSLine(pMetricUnitConv, pCadaPoints, ref pPt1,
iID1, dDir, dDist, dRadius, iAccuracy, iUserLineType, iCategory, bComputeToPoint, out iID2);
if (j < iCnt - 1 || !bIsLoop)
{
iID1 = iID2;
}
else if ((j == iCnt - 1) && bIsLoop)
{
pGSLine.ToPoint = iID1_Orig; //closing the traverse back to the POB
}
iID2 = -1;
//Add the line to the new parcel
if (pGSLine != null)
{
pNewGSParcel.InsertLine(++index, pGSLine);
}
}
//Add radial lines for circular curves
pNewGSParcel.AddRadialLines();
// 4.e then set join=true on the parcel.
pNewGSParcel.Joined = true;
//let the packet know that a change has been made
pCadPacketMan.SetPacketModified(true);
//save the new parcel
try
{
pCadMapEdit.StopMapEdit(true);
}
catch
{
if (!bStartedWithPacketOpen)
{
m_editor.AbortOperation();
}
return;
}
if (!bStartedWithPacketOpen)
{
m_editor.StopOperation("New Parcel");
}
pCadPacketMan.PartialRefresh();
}
catch (Exception ex)
{
m_editor.AbortOperation();
MessageBox.Show(ex.Message);
}
}
private double AnglularDefaultUnitsToRadians(string inUnits)
{
try
{
IAngularConverter pAngularConverter = new AngularConverterClass();
pAngularConverter.SetString(inUnits,m_pEditProp2.DirectionType,m_pEditProp2.DirectionUnits);
return pAngularConverter.GetAngle(esriDirectionType.esriDTPolar,esriDirectionUnits.esriDURadians);
}
catch
{
return double.NaN;
}
}
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>
/// Gets the geographic angle from two points.
/// </summary>
/// <param name="p1">A point.</param>
/// <param name="p2">A point.</param>
/// <returns>Returns the angle.</returns>
public static double GetGeographicAngleOfTwoPoints(IPoint p1, IPoint p2)
{
double angle = 0.0;
if (IsGeometryValid(p1) && IsGeometryValid(p2))
{
angle = AngleOfTwoPoints(p1.Y, p2.Y, p1.X, p2.X);
if (angle < 0)
angle = 360 - (((angle * 360) * -1) / (2 * System.Math.PI));
else
angle = (angle * 360) / (2 * System.Math.PI);
}
IAngularConverter converter = new AngularConverterClass();
converter.SetAngle(angle, esriDirectionType.esriDTPolar, esriDirectionUnits.esriDUDecimalDegrees);
return converter.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDUDecimalDegrees);
}
void distanceAngle_Disposed(object sender, EventArgs e)
{
if (_isDistAngleFormDisposed) return;
double x = 0, y = 0;
IPoint anchor = new PointClass();
if (_segmentCollection.SegmentCount > 0)
{
try
{
ISegment seg = _segmentCollection.get_Segment(_segmentCollection.SegmentCount - 1);
x = seg.ToPoint.X;
y = seg.ToPoint.Y;
}
catch
{
}
}
else
{
x = _initialAnchorPoint.X;
y = _initialAnchorPoint.Y;
}
if (x > 0 && y > 0 && _distance > 10)
{
anchor.X = x;
anchor.Y = y;
IAngularConverter converter = new AngularConverterClass();
esriDirectionType dt = ((IEditProperties2)ExtensionInfo.Editor).DirectionType;// GISApplication.EditorDirectionType();
esriDirectionUnits ut = ((IEditProperties2)ExtensionInfo.Editor).DirectionUnits;// GISApplication.EditorDirectionUnit();
converter.SetAngle(_angle, esriDirectionType.esriDTPolar, ut);
_angle = converter.GetAngle(dt, ut);
IConstructPoint newPoint = new PointClass();
double radians = DisplayMap.DegreesToRadians(_angle);
newPoint.ConstructAngleDistance(anchor, radians, _distance);
ProcessSegment((IPoint)newPoint);
}
_isDistAngleFormDisposed = true;
}
void conAngle_TextChanged(object sender, EventArgs e)
{
double angle = ((NumericTextBox)sender).DoubleValue;
IAngularConverter converter = new AngularConverterClass();
esriDirectionType dt = ((IEditProperties2)ExtensionInfo.Editor).DirectionType;
esriDirectionUnits ut = ((IEditProperties2)ExtensionInfo.Editor).DirectionUnits;
converter.SetAngle(angle, esriDirectionType.esriDTPolar, ut);
angle = converter.GetAngle(dt, ut);
_constrainedAngle = DisplayMap.DegreesToRadians(angle);
// newPoint.ConstructAngleDistance(anchor, radians, _distance);
// IAngularConverter converter = new AngularConverterClass();
// converter.SetAngle(angle, esriDirectionType.esriDTPolar, esriDirectionUnits.esriDURadians);
// angle = converter.GetAngle(esriDirectionType.esriDTNorthAzimuth, esriDirectionUnits.esriDURadians);
// _constrainedAngle = Mathmatics.RadiansToDegrees(angle);
}
