def btnEvaluate_Click(self): # self.complexObstacleArea.ObstacleArea = None # # ObstacleTable.MocMultiplier = self.parametersPanel.mocSpinBox.value() # self.obstaclesModel = TurnProtectionAndObstacleAssessmentObstacles(self.complexObstacleArea, self.parametersPanel.pnlPrimaryMoc.Value, self.parametersPanel.pnlAltitude.Value, self.manualPolygon ) FlightPlanBaseDlg.btnEvaluate_Click(self) self.ui.btnLocate.setEnabled(True)
def btnEvaluate_Click(self): point3dCollection = None point3dCollection1 = None polylineArea = None polylineArea1 = None polylineArea2 = None primaryObstacleArea = None # if (self.parametersPanel.cmbSelectionMode.currentText() == "Manual" and not self.pnlSelectionMode.method_0()): # return; result, point3dCollection, point3dCollection1, polylineArea, polylineArea1, polylineArea2 = self.method_34( ) if (not result): return point3d = self.parametersPanel.pnlDer.Point3d num = MathHelper.getBearing(self.parametersPanel.pnlRwyStart.Point3d, point3d) percent = float(self.parametersPanel.txtMoc.text()) percent1 = float(self.parametersPanel.txtPdg.text()) ObstacleTable.MocMultiplier = self.parametersPanel.mocSpinBox.value() self.obstaclesModel = DepartureOmnidirectionalObstacles( point3d, num, Altitude(float(self.parametersPanel.txtTurningAltitude.text()), AltitudeUnits.FT), percent, percent1, self.parametersPanel.chbCatH.isChecked(), point3dCollection, point3dCollection1, polylineArea1, polylineArea2, self.manualPolygon) # return FlightPlanBaseDlg.btnEvaluate_Click(self)
def btnEvaluate_Click(self): if not self.method_27(): return holdingTemplate = HoldingTemplate( self.parametersPanel.pnlNavAid.Point3d, float(self.parametersPanel.txtTrack.Value), self.parametersPanel.txtIas.Value, self.parametersPanel.txtAltitude.Value, Speed(float(self.parametersPanel.pnlWind.speedBox.text())), float(self.parametersPanel.txtIsa.Value), float(self.parametersPanel.txtTime.Value), self.parametersPanel.cmbOrientation.SelectedItem) polylineArea = self.method_35() polylineAreaTemp = holdingTemplate.vmethod_0( polylineArea, self.parametersPanel.chbIntercept.Checked, self.parametersPanel.chbSectors12.Checked) polylineArea1 = polylineAreaTemp[0] altitude_0 = self.parametersPanel.txtAltitude.Value altitude_1 = self.parametersPanel.txtMoc.Value if (self.parametersPanel.cmbUsedFor.SelectedIndex != 0): hOSE = HoldingOverheadSecondaryEvaluator( polylineArea1, altitude_0, altitude_1, Distance(2.5, DistanceUnits.NM)) self.obstaclesModel = HoldingOverHeadObstacles( False, "second", None, altitude_0, hOSE.inner, hOSE.outer, hOSE.poly, altitude_1, Distance(2.5, DistanceUnits.NM)) elif (not self.parametersPanel.chbCatH.isChecked()): hOBE = HoldingOverheadBufferEvaluator(polylineArea1, altitude_0, altitude_1) self.obstaclesModel = HoldingOverHeadObstacles( self.parametersPanel.chbCatH.Checked, "buffer", hOBE.areas, altitude_0) else: hOSE = HoldingOverheadSecondaryEvaluator( polylineArea1, altitude_0, altitude_1, Distance(2, DistanceUnits.NM)) self.obstaclesModel = HoldingOverHeadObstacles( True, "second", None, altitude_0, hOSE.inner, hOSE.outer, hOSE.poly, altitude_1, Distance(2, DistanceUnits.NM)) return FlightPlanBaseDlg.btnEvaluate_Click(self)
def btnEvaluate_Click(self): polylines = self.method_36(False) # polylines[0].Dispose(); # polylines.RemoveAt(0); count = len(polylines) num = 0.1 * count altitudeMoc = Altitude(float(self.parametersPanel.txtMoc.text()), AltitudeUnits.M) metres = altitudeMoc.Metres holdingRnpAreas = [] for i in range(count): if (i > 0): metres = num * altitudeMoc.Metres num = num - 0.1 point3dCollection = polylines[i].method_14_closed(6) polylineArea0 = PolylineArea(point3dCollection) holdingRnpAreas.append( HoldingRnpArea(polylineArea0, Altitude(metres))) self.surfaceList = holdingRnpAreas return FlightPlanBaseDlg.btnEvaluate_Click(self)
def btnEvaluate_Click(self): return FlightPlanBaseDlg.btnEvaluate_Click(self)
def btnEvaluate_Click(self): self.complexObstacleArea = ComplexObstacleArea() num = None; num1 = None; num2 = None; num3 = None; line = None; # if (!AcadHelper.Ready) # { # return; # } # if (!self.method_27(true)) # { # return; # } constructionLayer = None; nominalTrackLayer = None; mapUnits = define._canvas.mapUnits() point3d = self.parametersPanel.pnlNavAid.Point3d; metres = Altitude(float(self.parametersPanel.txtStartAltitude.text())).Metres; metres1 = Altitude(float(self.parametersPanel.txtPrimaryMOC.text())).Metres; percent = float(self.parametersPanel.txtAltitudeChange.text()); num4 = Unit.ConvertDegToRad(float(self.parametersPanel.txtTrackRadial.Value)); metres2 = Distance(float(self.parametersPanel.txtDistStart.text()), DistanceUnits.NM).Metres; metres3 = Distance(float(self.parametersPanel.txtDistFinish.text()), DistanceUnits.NM).Metres; # if define._mapCrs == None: # if mapUnits == QGis.Meters: # nominalTrackLayer = QgsVectorLayer("linestring?crs=EPSG:32633", "NominalTrack", "memory") # else: # nominalTrackLayer = QgsVectorLayer("linestring?crs=EPSG:4326", "NominalTrack", "memory") # else: # nominalTrackLayer = QgsVectorLayer("linestring?crs=%s"%define._mapCrs.authid (), "NominalTrack", "memory") # nominalTrackLayer.startEditing() # polyline = QgsGeometry.fromPolyline([MathHelper.distanceBearingPoint(point3d, num4, metres2), MathHelper.distanceBearingPoint(point3d, num4, metres3)]) # feature = QgsFeature() # feature.setGeometry(polyline) # nominalTrackLayer.addFeature(feature) # nominalTrackLayer.commitChanges() if (self.parametersPanel.cmbNavAidType.SelectedIndex != 0): num = Unit.ConvertDegToRad(6.2); num1 = Unit.ConvertDegToRad(6.9); num2 = Unit.ConvertDegToRad(10.3); else: num = Unit.ConvertDegToRad(4.5); num1 = Unit.ConvertDegToRad(5.2); num2 = Unit.ConvertDegToRad(7.8); if (self.parametersPanel.cmbNavAidType.SelectedIndex != 0): num3 = 2315 if(self.parametersPanel.cmbToleranceType.currentIndex() != 2 or not self.parametersPanel.chbOverhead.isChecked()) else 4630; else: num3 = 1900 if(self.parametersPanel.cmbToleranceType.currentIndex() != 2 or not self.parametersPanel.chbOverhead.isChecked()) else 3704; num5 = num4 + num; num6 = num4 - num; num7 = num4 + num1; num8 = num4 - num1; num9 = num4 + num2; num10 = num4 - num2; num11 = num4 + Unit.ConvertDegToRad(90); num12 = num4 - Unit.ConvertDegToRad(90); num13 = metres2 / math.cos(num); num14 = metres2 / math.cos(num1); num15 = metres2 / math.cos(num2); num16 = metres3 / math.cos(num); num17 = metres3 / math.cos(num1); num18 = metres3 / math.cos(num2); point3d1 = MathHelper.distanceBearingPoint(point3d, num4, metres2); point3d2 = MathHelper.distanceBearingPoint(point3d, num4, metres3); point3d3 = MathHelper.distanceBearingPoint(point3d, num12, num3); point3d4 = MathHelper.distanceBearingPoint(point3d, num11, num3); point3d5 = MathHelper.distanceBearingPoint(point3d4, num9, num15); point3d6 = MathHelper.distanceBearingPoint(point3d3, num10, num15); num19 = MathHelper.calcDistance(point3d1, point3d5) / 2; point3d7 = MathHelper.distanceBearingPoint(point3d1, num12, num19); point3d8 = MathHelper.distanceBearingPoint(point3d1, num11, num19); point3d9 = MathHelper.distanceBearingPoint(point3d3, num10, num18); point3d10 = MathHelper.distanceBearingPoint(point3d4, num9, num18); num20 = MathHelper.calcDistance(point3d2, point3d10) / 2; point3d11 = MathHelper.distanceBearingPoint(point3d2, num12, num20); point3d12 = MathHelper.distanceBearingPoint(point3d2, num11, num20); resultPoint3dArrayList = [] if (self.parametersPanel.cmbToleranceType.currentIndex() == 0): resultPoint3dArrayList.append([point3d1, point3d2]) resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num5, num16), MathHelper.distanceBearingPoint(point3d, num5, num13)]) resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num5, num13), MathHelper.distanceBearingPoint(point3d, num6, num13)]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num6, num13), MathHelper.distanceBearingPoint(point3d, num6, num16)]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num6, num16), MathHelper.distanceBearingPoint(point3d, num5, num16)]); polylineArea0 = PolylineArea([MathHelper.distanceBearingPoint(point3d, num5, num16), MathHelper.distanceBearingPoint(point3d, num5, num13), MathHelper.distanceBearingPoint(point3d, num6, num13), MathHelper.distanceBearingPoint(point3d, num6, num16), MathHelper.distanceBearingPoint(point3d, num6, num16), MathHelper.distanceBearingPoint(point3d, num5, num16)]) self.complexObstacleArea.Add(PrimaryObstacleArea(polylineArea0)) elif (self.parametersPanel.cmbToleranceType.currentIndex() == 1): resultPoint3dArrayList.append([point3d1, point3d2]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num7, num17), MathHelper.distanceBearingPoint(point3d, num7, num14)]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num7, num14), MathHelper.distanceBearingPoint(point3d, num8, num14)]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num8, num14), MathHelper.distanceBearingPoint(point3d, num8, num17)]); resultPoint3dArrayList.append([MathHelper.distanceBearingPoint(point3d, num8, num17), MathHelper.distanceBearingPoint(point3d, num7, num17)]); polylineArea0 = PolylineArea([MathHelper.distanceBearingPoint(point3d, num7, num17), MathHelper.distanceBearingPoint(point3d, num7, num14), MathHelper.distanceBearingPoint(point3d, num8, num14), MathHelper.distanceBearingPoint(point3d, num8, num17), MathHelper.distanceBearingPoint(point3d, num8, num17), MathHelper.distanceBearingPoint(point3d, num7, num17)]) self.complexObstacleArea.Add(PrimaryObstacleArea(polylineArea0)) elif (self.parametersPanel.cmbToleranceType.currentIndex() == 2): if (self.parametersPanel.cmbConstructionType.currentText() != ConstructionType.Construct2D): num21 = metres - metres1; num22 = percent / 100; num23 = num21 + (metres3 - metres2) * num22; num24 = metres + (metres3 - metres2) * num22; point3d5 = point3d5.smethod_167(metres); point3d6 = point3d6.smethod_167(metres); point3d9 = point3d9.smethod_167(num24); point3d10 = point3d10.smethod_167(num24); point3d8 = point3d8.smethod_167(num21); point3d12 = point3d12.smethod_167(num23); point3d7 = point3d7.smethod_167(num21); point3d11 = point3d11.smethod_167(num23); point3d1 = point3d1.smethod_167(metres); point3d2 = point3d2.smethod_167(num24); # resultPoint3dArrayList.append([point3d8, point3d5, point3d10, point3d12]); resultPoint3dArrayList.append([point3d8, point3d12, point3d11, point3d7]); resultPoint3dArrayList.append([point3d7, point3d11, point3d9, point3d6]); self.complexObstacleArea.Add(PrimaryObstacleArea(PolylineArea([point3d8, point3d12, point3d11, point3d7, point3d8]))) self.complexObstacleArea.Add(SecondaryObstacleArea(point3d8, point3d12, point3d5, point3d10, MathHelper.getBearing(point3d8, point3d12))) self.complexObstacleArea.Add(SecondaryObstacleArea(point3d7, point3d11, point3d6, point3d9, MathHelper.getBearing(point3d7, point3d11))) else: resultPoint3dArrayList.append([point3d1, point3d2]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d6, point3d5]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d5, point3d10]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d10, point3d9]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d9, point3d6]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d7, point3d11]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); resultPoint3dArrayList.append([point3d8, point3d12]); # AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer); # num21 = metres - metres1; # num22 = percent / 100; # num23 = num21 + (metres3 - metres2) * num22; # num24 = metres + (metres3 - metres2) * num22; # point3d5 = point3d5.smethod_167(0); # point3d6 = point3d6.smethod_167(0); # point3d9 = point3d9.smethod_167(0); # point3d10 = point3d10.smethod_167(0); # point3d8 = point3d8.smethod_167(0); # point3d12 = point3d12.smethod_167(0); # point3d7 = point3d7.smethod_167(0); # point3d11 = point3d11.smethod_167(0); # point3d1 = point3d1.smethod_167(0); # point3d2 = point3d2.smethod_167(0); # resultPoint3dArrayList.append([point3d8, point3d5, point3d10, point3d12]); # resultPoint3dArrayList.append([point3d8, point3d12, point3d11, point3d7]); # resultPoint3dArrayList.append([point3d7, point3d11, point3d9, point3d6]); self.complexObstacleArea.Add(PrimaryObstacleArea(PolylineArea([point3d8, point3d12, point3d11, point3d7, point3d8]))) self.complexObstacleArea.Add(SecondaryObstacleArea(point3d8, point3d12, point3d5, point3d10, MathHelper.getBearing(point3d8, point3d12))) self.complexObstacleArea.Add(SecondaryObstacleArea(point3d7, point3d11, point3d6, point3d9, MathHelper.getBearing(point3d7, point3d11))) ObstacleTable.MocMultiplier = self.parametersPanel.mocSpinBox.value() self.obstaclesModel = RadialObstacles(self.complexObstacleArea, Altitude(float(self.parametersPanel.txtPrimaryMOC.text())), self.manualPolygon ); return FlightPlanBaseDlg.btnEvaluate_Click(self)