def initObstaclesModel(self):
ObstacleTable.MocMultiplier = self.parametersPanel.mocSpinBox.value()
self.obstaclesModel = HoldingRnpObstacles(
self.surfaceList,
Altitude(float(self.parametersPanel.txtMoc.text())),
Altitude(float(self.parametersPanel.txtAltitude.text()),
AltitudeUnits.FT))
return FlightPlanBaseDlg.initObstaclesModel(self)
def initObstaclesModel(self):
if self.surfaceArea == None:
return
self.obstaclesModel = VisualSegmentSurfaceObstacles([self.surfaceArea], self.ui.chbHideDisregardableObst.isChecked())
try:
double_0 = float(self.parametersPanel.txtRwyDir.Value)
except ValueError:
raise UserWarning, "Runway Direction is invalid!"
try:
double_1 = math.tan(Unit.ConvertDegToRad(float(self.parametersPanel.txtDescAngle.Value.Degrees) - 1.12))
except ValueError:
raise UserWarning, "DescAngle is invalid!"
point3d_0 = MathHelper.distanceBearingPoint(self.parametersPanel.pnlTHR.getPoint3D(), double_0, 60)
self.obstaclesModel.ptStart = point3d_0;
self.obstaclesModel.ptStart2 = MathHelper.distanceBearingPoint(point3d_0, double_0 - 1.5707963267949, 100);
self.obstaclesModel.outbound = double_0;
self.obstaclesModel.tang = double_1;
return FlightPlanBaseDlg.initObstaclesModel(self)
def initObstaclesModel(self):
self.obstaclesModel.MocMultiplier = self.parametersPanel.mocSpinBox.value(
)
return FlightPlanBaseDlg.initObstaclesModel(self)
def initObstaclesModel(self):
ObstacleTable.MocMultiplier = self.parametersPanel.mocSpinBox.value()
self.obstaclesModel = HoldingRnpObstacles(self.surfaceList)
return FlightPlanBaseDlg.initObstaclesModel(self)