Constructs an arc with the given chord bearing, central angle and arc distance.
[Visual Basic .NET] Public Sub ConstructBearingAngleArc ( _ ByVal from As IPoint, _ ByVal inAngle As Double, _ ByVal isCCW As Boolean, _ ByVal CentralAngle As Double, _ ByVal arcDistance As Double _ )
[C#] public void ConstructBearingAngleArc ( IPoint from, double inAngle, bool isCCW, double CentralAngle, double arcDistance );
[C++]
HRESULT ConstructBearingAngleArc(
IPoint* from,
double inAngle,
VARIANT_BOOL isCCW,
double CentralAngle,
double arcDistance
);
[C++]Parameters
fromfrom is a parameter of type IPoint
inAngle inAngle is a parameter of type double isCCW isCCW is a parameter of type VARIANT_BOOL CentralAngle CentralAngle is a parameter of type double arcDistance arcDistance is a parameter of type double
Product Availability
Description
Constructs a CircularArc given the From Point, the Bearing Angle, the desired orientation, the desired Central Angle, and the desired CircularArc Length. The Bearing Angle and Central Angle are measured in radians.
Remarks
-isCCW stands for "is counter clockwise"
private void ConstructBearingAngleArc()
{
IConstructCircularArc constructCircularArc = new CircularArcClass();
ICircularArc circularArc = constructCircularArc as ICircularArc;
IPoint fromPoint = new PointClass();
fromPoint.PutCoords(100, 100);
//The angles should be in Radians (Radians = Degrees * PI/180)
constructCircularArc.ConstructBearingAngleArc(fromPoint, 0, true, (90 * (Math.PI / 180)), 150);
String report = "Length : " + circularArc.Length + "\n" +
"Radius : " + circularArc.Radius + "\n" +
"Chord Height : " + circularArc.ChordHeight + "\n" +
"Central Angle (Rad) : " + circularArc.CentralAngle + "\n" +
"From Angle (Rad) : " + circularArc.FromAngle + "\n" +
"To Angle (Rad) : " + circularArc.ToAngle + "\n" +
"Center Point : " + circularArc.CenterPoint.X + " , " + circularArc.CenterPoint.Y + "\n" +
"From Point : " + circularArc.FromPoint.X + " , " + circularArc.FromPoint.Y + "\n" +
"To Point : " + circularArc.ToPoint.X + " , " + circularArc.ToPoint.Y;
System.Windows.Forms.MessageBox.Show(report);
}
Private Sub ConstructBearingAngleArc()
Dim pConstructCircularArc As ESRI.ArcGIS.Geometry.IConstructCircularArc
Dim pCArc As ESRI.ArcGIS.Geometry.ICircularArc
Dim pFromPoint As ESRI.ArcGIS.Geometry.IPoint
Dim Pi As Double
pConstructCircularArc = New ESRI.ArcGIS.Geometry.CircularArc
pCArc = pConstructCircularArc
Pi = 4 * Math.Atan(1) 'Calculate the value of pi.
pFromPoint = New ESRI.ArcGIS.Geometry.Point
pFromPoint.PutCoords(100, 100)
'The angles should be in Radians (Radians = Degrees * PI/180)
pConstructCircularArc.ConstructBearingAngleArc(pFromPoint, 0, True, (90 * (Pi / 180)), 150)
Debug.Print("Length : " & pCArc.Length)
Debug.Print("Radius : " & pCArc.Radius)
Debug.Print("Chord Height : " & pCArc.ChordHeight)
Debug.Print("Central Angle (Rad) : " & pCArc.CentralAngle)
Debug.Print("From Angle (Rad) : " & pCArc.FromAngle)
Debug.Print("To Angle (Rad) : " & pCArc.ToAngle)
Debug.Print("Center Point : " & pCArc.CenterPoint.X & " , " & pCArc.CenterPoint.Y)
Debug.Print("From Point : " & pCArc.FromPoint.X & " , " & pCArc.FromPoint.Y)
Debug.Print("To Point : " & pCArc.ToPoint.X & " , " & pCArc.ToPoint.Y)
End Sub
See Also
IConstructCircularArc Interface | IConstructCircularArc.ConstructBearingRadiusChord Method | IConstructCircularArc.ConstructBearingRadiusTangent Method | IConstructCircularArc.ConstructBearingRadiusAngle Method | IConstructCircularArc.ConstructBearingRadiusArc Method | IConstructCircularArc.ConstructBearingChordTangent Method | IConstructCircularArc.ConstructBearingChordArc Method | IConstructCircularArc.ConstructBearingArcTangent Method | IConstructCircularArc.ConstructBearingAngleTangent Method | IConstructCircularArc.ConstructBearingAngleArc Method | IConstructCircularArc.ConstructBearingAngleChord Method | IConstructAngle.ConstructThreePoint Method | IConstructAngle.ConstructLine Method