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 initParametersPan(self): ui = Ui_NpaOnFix() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) if self.dlgType != "NpaOnFix": self.parametersPanel.pnlDistFixTolerance.Visible = False self.parametersPanel.cmbAircraftCategory.Items = [ "A", "B", "C", "D", "E", "H", "Custom" ] self.connect(self.parametersPanel.pnlAerodromeAltitude, SIGNAL("editingFinished"), self.altitudeChanged) self.connect(self.parametersPanel.pnlIas, SIGNAL("Event_0"), self.altitudeChanged) self.connect(self.parametersPanel.pnlTas, SIGNAL("Event_0"), self.showMarkDaSoc) self.connect(self.parametersPanel.pnlIsa, SIGNAL("editingFinished"), self.altitudeChanged) self.connect(self.parametersPanel.pnlEstimatedAltitude, SIGNAL("Event_0"), self.pnlEstimatedAltitude_Event_0) self.connect(self.parametersPanel.pnlEstimatedAltitude, SIGNAL("editingFinished"), self.showMarkDaSoc) self.connect(self.parametersPanel.cmbAircraftCategory, SIGNAL("Event_0"), self.cmbAircraftCategory_Event_0) # # self.connect(self.parametersPanel.cmbPhaseOfFlight, SIGNAL("Event_0"), self.cmbPhaseOfFlightChanged) # # self.connect(self.parametersPanel.cmbSelectionMode, SIGNAL("Event_0"), self.manualEvent) # self.connect(self.parametersPanel.pnlHeightLoss, SIGNAL("Event_0"), self.pnlHeightLoss_Event_0) self.connect(self.parametersPanel.pnlDistFixTolerance, SIGNAL("editingFinished"), self.showMarkDaSoc) # self.connect(self.parametersPanel.pnlRDH, SIGNAL("editingFinished"), self.pnlRDH_Event_0) self.connect(self.parametersPanel.pnlDistX, SIGNAL("Event_0"), self.showMarkDaSoc) # # self.connect(self.parametersPanel.cmbType2, SIGNAL("Event_0"), self.method_31) # self.connect(self.parametersPanel.pnlFafPosition, SIGNAL("positionChanged"), self.calcRwyBearing) self.connect(self.parametersPanel.pnlMaPtPosition, SIGNAL("positionChanged"), self.calcRwyBearing) self.connect(self.parametersPanel.pnlThrPosition, SIGNAL("positionChanged"), self.showMarkDaSoc) self.parametersPanel.pnlFafPosition.btnCalculater.clicked.connect( self.pnlFafPosition_btnCalculater_clicked) self.parametersPanel.pnlMaPtPosition.btnCalculater.clicked.connect( self.pnlMaPtPosition_btnCalculater_clicked) # self.parametersPanel.cmbAircraftCategory.SelectedIndex = 0 # self.putAircraftSpeed() self.altitudeChanged() # self.putWithInHeightLoss() self.calcSocAltitude()
def __init__(self, parent, dlgType): FlightPlanBaseDlg.__init__(self, parent) # self.dlgType = dlgType self.setObjectName("PaIlsDlg") self.dlgType = dlgType if self.dlgType == "NpaOnFix": self.surfaceType = SurfaceTypes.NpaOnFix else: self.surfaceType = SurfaceTypes.NpaOverheadingNavaid self.initParametersPan() self.setWindowTitle(self.surfaceType) self.resize(540, 600) QgisHelper.matchingDialogSize(self, 650, 700) self.surfaceList = None self.manualPolygon = None self.mapToolPan = None self.toolSelectByPolygon = None self.accepted.connect(self.closed) self.rejected.connect(self.closed) self.wptLayer = None self.arpFeatureArray = [] self.currentLayer = define._canvas.currentLayer() self.rwyFeatureArray = [] self.rwyEndPosition = None self.initAerodromeAndRwyCmb() self.socRubber = None self.socAnnotation = QgsTextAnnotationItem(define._canvas) self.socAnnotation.setDocument(QTextDocument(Captions.SOC)) self.socAnnotation.setFrameBackgroundColor(Qt.white) self.socAnnotation.setFrameSize(QSizeF(30, 20)) self.socAnnotation.setFrameColor(Qt.magenta) self.socAnnotation.hide() self.socPoint3d = None self.daRubber = None self.daAnnotation = QgsTextAnnotationItem(define._canvas) self.daAnnotation.setDocument(QTextDocument(Captions.DA)) self.daAnnotation.setFrameBackgroundColor(Qt.white) self.daAnnotation.setFrameSize(QSizeF(30, 20)) self.daAnnotation.setFrameColor(Qt.magenta) self.daAnnotation.hide() self.daPoint3d = None self.annotationFAWP = self.parametersPanel.pnlFafPosition.annotation self.annotationMAPt = self.parametersPanel.pnlMaPtPosition.annotation
def __init__(self, parent): ''' Constructor ''' FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("HoldingRnp") self.surfaceType = SurfaceTypes.EnrouteStraight self.initParametersPan() self.setWindowTitle(SurfaceTypes.EnrouteStraight) self.resultLayerList = [] self.resize(540, 550)
def __init__(self, parent): ''' Constructor ''' FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("HoldingRnp") self.surfaceType = SurfaceTypes.HoldingRnp self.initParametersPan() self.setWindowTitle(SurfaceTypes.HoldingRnp) self.resize(540, 550) QgisHelper.matchingDialogSize(self, 710, 700)
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("ChartingGridDlg") self.surfaceType = SurfaceTypes.ChartingGrid self.initParametersPan() self.uiStateInit() self.setWindowTitle(SurfaceTypes.ChartingGrid) self.resize(500, 400) self.constructionLayer = None self.selectedRow = None
def initParametersPan(self): ui = Ui_PaIls() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) items = [] for i in range(25, 71): num = float(i) / 10 items.append(QString(str(num)) + define._degreeStr) self.parametersPanel.cmbVPA.Items = items self.parametersPanel.cmbVPA.SelectedIndex = 5 self.parametersPanel.cmbAircraftCategory.Items = ["A", "B", "C", "D", "E", "H", "Custom"] # self.parametersPanel.pnlWind.setAltitude(self.parametersPanel.pnlAltitude.Value) # # self.parametersPanel.cmbSelectionMode.Items = ["Automatic", "Manual"] # # self.parametersPanel.cmbConstructionType.Items = ["2D", "3D"] # self.parametersPanel.cmbType1.Items = ["Fly-By", "Fly-Over", "RF"] # self.parametersPanel.cmbType2.Items = ["Fly-By", "Fly-Over", "RF"] # # self.parametersPanel.cmbRnavSpecification.Items = ["", "Rnav5", "Rnav2", "Rnav1", "Rnp4", "Rnp2", "Rnp1", "ARnp2", "ARnp1", "ARnp09", "ARnp08", "ARnp07", "ARnp06", "ARnp05", "ARnp04", "ARnp03", "RnpApch"] # # self.connect(self.parametersPanel.pnlAerodromeAltitude, SIGNAL("Event_0"), self.altitudeChanged) self.connect(self.parametersPanel.pnlIas, SIGNAL("Event_0"), self.altitudeChanged) self.connect(self.parametersPanel.pnlIsa, SIGNAL("Event_0"), self.altitudeChanged) self.connect(self.parametersPanel.pnlEstimatedAltitude, SIGNAL("Event_0"), self.pnlEstimatedAltitude_Event_0) self.connect(self.parametersPanel.pnlEstimatedAltitude, SIGNAL("editingFinished"), self.showMarkDaSoc) self.connect(self.parametersPanel.cmbVPA, SIGNAL("Event_0"), self.cmbVPA_Event_0) self.connect(self.parametersPanel.cmbAircraftCategory, SIGNAL("Event_0"), self.cmbAircraftCategory_Event_0) # self.connect(self.parametersPanel.cmbPhaseOfFlight, SIGNAL("Event_0"), self.cmbPhaseOfFlightChanged) # self.connect(self.parametersPanel.cmbSelectionMode, SIGNAL("Event_0"), self.manualEvent) self.connect(self.parametersPanel.pnlHeightLoss, SIGNAL("Event_0"), self.pnlHeightLoss_Event_0) self.connect(self.parametersPanel.pnlHeightLoss, SIGNAL("editingFinished"), self.showMarkDaSoc) self.connect(self.parametersPanel.pnlRDH, SIGNAL("editingFinished"), self.pnlRDH_Event_0) self.connect(self.parametersPanel.pnlDistXz, SIGNAL("Event_0"), self.showMarkDaSoc) # self.connect(self.parametersPanel.cmbType2, SIGNAL("Event_0"), self.method_31) # self.connect(self.parametersPanel.pnlFapPosition, SIGNAL("positionChanged"), self.calcRwyBearing) self.connect(self.parametersPanel.pnlThrPosition, SIGNAL("positionChanged"), self.calcRwyBearing) self.parametersPanel.pnlFapPosition.btnCalculater.clicked.connect(self.pnlFapPosition_btnCalculater_clicked) # self.parametersPanel.cmbAircraftCategory.SelectedIndex = 0 self.putAircraftSpeed() self.altitudeChanged() self.putWithInHeightLoss() self.calcSocAltitude() self.putDistances()
def initParametersPan(self): ui = Ui_HoldingRace_P() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) self.parametersPanel.txtTas.setEnabled(False) self.parametersPanel.pnlInsPos = PositionPanel( self.parametersPanel.gbVorDmePosition) # self.parametersPanel.pnlInsPos.groupBox.setTitle("FAWP") self.parametersPanel.pnlInsPos.btnCalculater.hide() self.parametersPanel.pnlInsPos.hideframe_Altitude() self.parametersPanel.pnlInsPos.setObjectName("pnlInsPos") ui.vl_VorDmePosition.addWidget(self.parametersPanel.pnlInsPos) self.parametersPanel.pnlWind = WindPanel( self.parametersPanel.gbParameters) self.parametersPanel.pnlWind.lblIA.setMinimumSize(250, 0) self.parametersPanel.vl_gbParameters.insertWidget( 6, self.parametersPanel.pnlWind) self.parametersPanel.pnlWind.setAltitude( Altitude(float(self.parametersPanel.txtAltitude.text()), AltitudeUnits.FT)) self.parametersPanel.cmbAircraftCategory.addItems( ["A", "B", "C", "D", "E", "H", "Custom"]) # self.parametersPanel.cmbOutboundLimit.addItems(["Time", "Distance From Waypoint"]) # self.parametersPanel.cmbConstruction.addItems(["2D", "3D"]) self.parametersPanel.cmbOrientation.addItems(["Right", "Left"]) self.parametersPanel.cmbAircraftCategory.setCurrentIndex(3) self.parametersPanel.frameAircraftCategory.hide() self.parametersPanel.frameMoc.hide() # self.parametersPanel.cmbHoldingFunctionality.currentIndexChanged.connect(self.cmbHoldingFunctionalityCurrentIndexChanged) # self.parametersPanel.cmbOutboundLimit.currentIndexChanged.connect(self.cmbOutboundLimitCurrentIndexChanged) # self.parametersPanel.btnCaptureTrack.clicked.connect(self.captureBearing) # self.parametersPanel.btnCaptureDistance.clicked.connect(self.measureDistance) # self.parametersPanel.btnCaptureLength.clicked.connect(self.measureLength) self.parametersPanel.txtAltitude.textChanged.connect( self.altitudeChanged) # self.parametersPanel.cmbAircraftCategory.currentIndexChanged.connect(self.changeCategory) # self.parametersPanel.btnIasHelp.clicked.connect(self.iasHelpShow) self.parametersPanel.txtIas.textChanged.connect(self.iasChanged) self.parametersPanel.txtIsa.textChanged.connect(self.isaChanged) self.parametersPanel.txtTas.setText( str( Speed.smethod_0( Speed(float(self.parametersPanel.txtIas.text())), float(self.parametersPanel.txtIsa.text()), Altitude(float(self.parametersPanel.txtAltitude.text()), AltitudeUnits.FT)).Knots))
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("DepartureOmnidirectionalDlg") self.surfaceType = SurfaceTypes.DepartureOmnidirectional self.initParametersPan() self.setWindowTitle(SurfaceTypes.DepartureOmnidirectional) self.resize(540, 700) QgisHelper.matchingDialogSize(self, 600, 700) self.surfaceList = None self.manualPolygon = None self.area123 = [] self.circleArea = None self.resultLayerList = []
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("HoldingOverHeadDlg") self.surfaceType = SurfaceTypes.HoldingOverHead self.initParametersPan() self.setWindowTitle(SurfaceTypes.HoldingOverHead) self.resize(540, 550) QgisHelper.matchingDialogSize(self, 630, 610) self.surfaceList = None self.resultLayerList = dict() self.vorDmeFeatureArray = [] self.currentLayer = define._canvas.currentLayer() self.initBasedOnCmb()
def resultPointValueListMethod(self, resultValueList): flag = FlightPlanBaseDlg.btnConstruct_Click(self) if not flag: return point = Point3D() try: point = Point3D(float(resultValueList[1]), float(resultValueList[2]), float(resultValueList[3])) except: return if (not self.flagP): mapUnits = define._canvas.mapUnits() self.constructionLayer = AcadHelper.createVectorLayer(self.surfaceType) self.point3dP = point.smethod_167(0); self.origin1P = self.method_31(self.polylineP, self.originP, self.point3dP, self.numP, self.metresP, self.speedP, self.num2P, self.orientationTypeP); AcadHelper.setGeometryAndAttributesInLayer(self.constructionLayer, self.polylineP) QgisHelper.appendToCanvas(define._canvas, [self.constructionLayer], self.surfaceType) # polyline.Draw(); else: mapUnits = define._canvas.mapUnits() self.constructionLayer = AcadHelper.createVectorLayer(self.surfaceType) self.originP = point.smethod_167(0); self.polylineP, self.origin1P = self.method_30(self.originP, self.numP, self.metresP, self.speedP, self.num2P, self.orientationTypeP); AcadHelper.setGeometryAndAttributesInLayer(self.constructionLayer, self.polylineP) QgisHelper.appendToCanvas(define._canvas, [self.constructionLayer], self.surfaceType) # AcadHelper.smethod_18(transaction, blockTableRecord, polyline, constructionLayer); self.flagP = not self.flagP; self.resultLayerList = [self.constructionLayer] if (not self.flagP): define._messageLabel.setText(Prompts.SECOND_POSITION_FINISH); else: define._messageLabel.setText(Prompts.POSITION_FINISH) pass
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 __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.currentLayer = define._canvas.currentLayer() self.setObjectName("RadialDlg") self.surfaceType = SurfaceTypes.Radial self.initParametersPan() self.setWindowTitle(SurfaceTypes.Radial) self.resize(540, 550) QgisHelper.matchingDialogSize(self, 720, 550) self.surfaceList = None self.complexObstacleArea = ComplexObstacleArea() self.vorDmeFeatureArray = [] self.initBasedOnCmb()
def showMarkDaSoc(self): try: flag = FlightPlanBaseDlg.btnConstruct_Click(self) self.putDistances() point3dMapt = self.parametersPanel.pnlMaPtPosition.Point3d socLayer = AcadHelper.createVectorLayer( "SOC_MAPt_" + self.surfaceType, QGis.Point) AcadHelper.setGeometryAndAttributesInLayer(socLayer, self.socPoint3d, False, {"Caption": "SOC"}) AcadHelper.setGeometryAndAttributesInLayer(socLayer, point3dMapt, False, {"Caption": "MAPt"}) QgisHelper.appendToCanvas(define._canvas, [socLayer], self.surfaceType) palSetting = QgsPalLayerSettings() palSetting.readFromLayer(socLayer) palSetting.enabled = True palSetting.fieldName = "Caption" palSetting.isExpression = True palSetting.placement = QgsPalLayerSettings.AroundPoint palSetting.setDataDefinedProperty(QgsPalLayerSettings.Size, True, True, '8', "") palSetting.writeToLayer(socLayer) self.resultLayerList = [socLayer] return socLayer except: pass
def exportResult(self): result, resultHideColumnNames = FlightPlanBaseDlg.exportResult(self) if not result: return filePathDir = QFileDialog.getSaveFileName( self, "Export Obstacle Data", QCoreApplication.applicationDirPath(), "ExportObstaclefiles(*.xml)") if filePathDir == "": return if self.ui.cmbSegmentType.SelectedIndex != 0: self.filterList = [ "", PinsSurfaceType.PinsSurfaceType_LevelOIS, PinsSurfaceType.PinsSurfaceType_OCS ] else: self.filterList = ["", PinsSurfaceType.PinsSurfaceType_OIS] # self.ui.btnExportResult.setEnabled(True) parameterList = self.getParameterList() DataHelper.saveExportResult(filePathDir, "PinS Visual Segment for Departures", self.ui.tblObstacles, self.filterList, parameterList, resultHideColumnNames) self.obstaclesModel.setFilterFixedString( self.filterList[self.ui.cmbSurface.currentIndex()])
def btnConstruct_Click(self): flag = FlightPlanBaseDlg.btnConstruct_Click(self) if not flag: return try: self.method_27(True) if (self.ui.cmbSegmentType.SelectedIndex != 0): self.pinSVisualSegmentDepManouvering = PinSVisualSegmentDepManouvering( self) else: self.pinSVisualSegmentDepManouvering = PinSVisualSegmentDepDirect( self) layersList = [] if self.ui.cmbConstructionType.SelectedItem != ConstructionType.Construct2D: self.pinSVisualSegmentDepManouvering.imethod_2(layersList) else: self.pinSVisualSegmentDepManouvering.imethod_1(layersList) QgisHelper.appendToCanvas(define._canvas, layersList, SurfaceTypes.PinSVisualSegmentDep) QgisHelper.zoomToLayers(layersList) self.resultLayerList = layersList self.ui.btnEvaluate.setEnabled(True) except UserWarning as e: QMessageBox.warning(self, "Error", e.message)
def btnConstruct_Click(self): flag = FlightPlanBaseDlg.btnConstruct_Click(self) if not flag: return value = Speed(float(self.parametersPanel.txtIas.text()),SpeedUnits.KTS); if (self.parametersPanel.chbDeparture.isChecked()): value = value + (value / 10); altitude = Altitude(float(self.parametersPanel.txtAltitudeFt.text()), AltitudeUnits.FT); value1 = float(self.parametersPanel.txtIsa.text()); num1 = float (self.parametersPanel.txtBankAngle.text()); self.speedP = self.parametersPanel.pnlWind.Value; self.num2P = Unit.ConvertDegToRad(float(self.parametersPanel.txtTrackRadial.Value)); self.orientationTypeP = self.parametersPanel.cmbOrientation.currentText(); speed1 = Speed.smethod_0(value, value1, altitude); numList = [] distance = Distance.smethod_1(speed1, num1, numList); self.numP = numList[0] self.metresP = distance.Metres; self.originP = Point3D.get_Origin(); self.point3dP = Point3D.get_Origin(); self.origin1P = Point3D.get_Origin(); self.polylineP = PolylineArea(); self.flagP = True; define._canvas.setMapTool(self.CaptureCoordTool)
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("VisualSegmentSurfaceDlg") self.surfaceType = SurfaceTypes.VisualSegmentSurface self.initParametersPan() self.setWindowTitle(SurfaceTypes.VisualSegmentSurface) QgisHelper.matchingDialogSize(self, 700, 650) # self.captureTrackTool= CaptureBearingTool(define._canvas, self.parametersPanel.txtTrack) self.surfaceArea = None self.arpFeatureArray = [] self.currentLayer = define._canvas.currentLayer() self.rwyFeatureArray = [] self.thrPoint3d = None self.thrEndPoint3d = None self.initAerodromeAndRwyCmb()
def saveData(self): fileName = FlightPlanBaseDlg.saveData(self) if fileName == None: return doc = DataHelper.loadXmlDocFromFile(fileName) dialogNodeList = doc.elementsByTagName(self.objectName()) if dialogNodeList.isEmpty(): raise UserWarning, "self file is not correct." dialogElem = dialogNodeList.at(0).toElement() elemTrack = doc.createElement("Track") elemStart = doc.createElement("StartPoint") elemX = doc.createElement("X") elemX.appendChild(doc.createTextNode(str(self.parametersPanel.txtTrack.captureRadialTool.startPoint.x()))) elemY = doc.createElement("Y") elemY.appendChild(doc.createTextNode(str(self.parametersPanel.txtTrack.captureRadialTool.startPoint.y()))) elemStart.appendChild(elemX) elemStart.appendChild(elemY) elemTrack.appendChild(elemStart) elemEnd = doc.createElement("EndPoint") elemX = doc.createElement("X") elemX.appendChild(doc.createTextNode(str(self.parametersPanel.txtTrack.captureRadialTool.endPoint.x()))) elemY = doc.createElement("Y") elemY.appendChild(doc.createTextNode(str(self.parametersPanel.txtTrack.captureRadialTool.endPoint.y()))) elemEnd.appendChild(elemX) elemEnd.appendChild(elemY) elemTrack.appendChild(elemEnd) dialogElem.appendChild(elemTrack) DataHelper.saveXmlDocToFile(fileName, doc)
def openData(self): try: fileName = FlightPlanBaseDlg.openData(self) if fileName == None: return doc = DataHelper.loadXmlDocFromFile(fileName) dialogNodeList = doc.elementsByTagName(self.objectName()) if dialogNodeList.isEmpty(): raise UserWarning, "self file is not correct." dialogElem = dialogNodeList.at(0).toElement() trackNodeList = dialogElem.elementsByTagName("Track") if trackNodeList.isEmpty(): return elemTrack = trackNodeList.at(0).toElement() elemStart = elemTrack.elementsByTagName("StartPoint").at( 0).toElement() elemEnd = elemTrack.elementsByTagName("EndPoint").at(0).toElement() x, y = DataHelper.getPointValueFromElem(elemStart) self.parametersPanel.txtTrack.captureRadialTool.startPoint = Point3D( x, y) x, y = DataHelper.getPointValueFromElem(elemEnd) self.parametersPanel.txtTrack.captureRadialTool.endPoint = Point3D( x, y) except BaseException as e: QMessageBox.warning(self, "Error", e.message)
def initParametersPan(self): ui = Ui_Radial() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) self.parametersPanel.pnlNavAid = PositionPanel(self.parametersPanel.gbNavAid) # self.parametersPanel.pnlNavAid.groupBox.setTitle("Aerodrome Reference Point(ARP)") self.parametersPanel.pnlNavAid.btnCalculater.hide() self.parametersPanel.pnlNavAid.hideframe_Altitude() self.parametersPanel.pnlNavAid.setObjectName("pnlNavAid") ui.vl_gbNavAid.addWidget(self.parametersPanel.pnlNavAid) self.parametersPanel.cmbNavAidType.Items = ["VOR", "NDB"] self.parametersPanel.cmbSelectionMode.addItems(["Automatic", "Manual"]) # self.parametersPanel.cmbSensorType.currentIndexChanged.connect(self.cmbSensorTypeChanged) self.parametersPanel.cmbToleranceType.addItems(["Intersecting", "Tracking", "Area Splay"]) self.parametersPanel.cmbConstructionType.addItems(["2D", "3D"]) self.parametersPanel.cmbConstructionType.currentIndexChanged.connect(self.method_28) self.connect(self.parametersPanel.cmbNavAidType, SIGNAL("Event_0"), self.method_28) # self.parametersPanel.btnCaptureTrackRadial.clicked.connect(self.captureTrackRadial) # self.parametersPanel.chbHideCloseInObst.stateChanged.connect(self.chbHideCloseInObstStateChanged) self.parametersPanel.btnCaptureDistFinish.clicked.connect(self.measureDistFinish) self.parametersPanel.btnCaptureDistStart.clicked.connect(self.measureDistStart) # self.parametersPanel.txtAltitude.textChanged.connect(self.altitudeChanged) self.parametersPanel.cmbToleranceType.currentIndexChanged.connect(self.method_28) # self.parametersPanel.btnIasHelp.clicked.connect(self.iasHelpShow) # self.parametersPanel.txtIas.textChanged.connect(self.iasChanged) # self.parametersPanel.txtIsa.textChanged.connect(self.isaChanged) # self.parametersPanel.txtPrimaryMOC.textChanged.connect(self.txtMocMChanged) self.parametersPanel.txtPrimaryMOCFt.textChanged.connect(self.txtMocFtChanged) self.flag1 = 0 if self.flag1==0: self.flag1=1; if self.flag1==2: self.flag1=0; if self.flag1==1: try: self.parametersPanel.txtPrimaryMOCFt.setText(str(round(round(Unit.ConvertMeterToFeet(float(self.parametersPanel.txtPrimaryMOC.text())), 4), 4))) except: self.parametersPanel.txtPrimaryMOCFt.setText("0.0") self.method_28()
def initParametersPan(self): ui = Ui_FixConstruction() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) self.parametersPanel.frameMOCMultipiler.setVisible(False) self.parametersPanel.pnlTrackingPosition = PositionPanel( self.parametersPanel.gbTrackingAid) self.parametersPanel.pnlTrackingPosition.btnCalculater.hide() self.parametersPanel.pnlTrackingPosition.hideframe_Altitude() self.parametersPanel.pnlTrackingPosition.setObjectName( "pnlTrackingPosition") ui.vl_gbTrackingAid.insertWidget( 1, self.parametersPanel.pnlTrackingPosition) # self.connect(self.parametersPanel.pnlNavAid, SIGNAL("positionChanged"), self.initResultPanel) self.parametersPanel.pnlIntersectingPosition = PositionPanel( self.parametersPanel.gbIntersectingAid) self.parametersPanel.pnlIntersectingPosition.btnCalculater.hide() self.parametersPanel.pnlIntersectingPosition.hideframe_Altitude() self.parametersPanel.pnlIntersectingPosition.setObjectName( "pnlIntersectingPosition") ui.vl_gbIntersectingAid.insertWidget( 1, self.parametersPanel.pnlIntersectingPosition) # self.connect(self.parametersPanel.pnlNavAid, SIGNAL("positionChanged"), self.initResultPanel) self.parametersPanel.cmbTrackingType.addItems( [Captions.VOR, Captions.NDB, Captions.LOC]) self.parametersPanel.cmbIntersectingType.addItems( [Captions.VOR, Captions.NDB, Captions.DME]) self.parametersPanel.cmbTrackingType.currentIndexChanged.connect( self.method_30) self.parametersPanel.cmbIntersectingType.currentIndexChanged.connect( self.method_30) self.parametersPanel.btnCaptureTrackingRadialTrack.clicked.connect( self.captureTrackingRadialTrack) self.parametersPanel.btnCaptureIntersectingRadialTrack.clicked.connect( self.captureIntersectingRadialTrack) self.parametersPanel.btnMeasureDmeOffset.clicked.connect( self.measureDmeOffset) self.parametersPanel.btnMeasureIntersectingDistance.clicked.connect( self.measureIntersectingDistance) self.method_30()
def uiStateInit(self): self.ui.grbMostCritical.setVisible(False) self.ui.grbResult_2.setVisible(False) self.ui.btnUpdateQA.setVisible(False) self.ui.btnUpdateQA_2.setVisible(False) self.ui.frm_cmbObstSurface.setVisible(False) self.ui.tabCtrlGeneral.removeTab(2) return FlightPlanBaseDlg.uiStateInit(self)
def initParametersPan(self): ui = Ui_ProcedureExport() self.parametersPanel = ui FlightPlanBaseDlg.initParametersPan(self) self.parametersPanel.tabControl.currentChanged.connect(self.tabControl_CurrentChanged) self.parametersPanel.gridProcedures.pressed.connect(self.gridProcedures_pressed) self.parametersPanel.btnProcEdit.clicked.connect(self.btnProcEdit_Click) self.parametersPanel.btnProcRemove.clicked.connect(self.btnProcRemove_Click) self.parametersPanel.btnProcAdd.clicked.connect(self.btnProcAdd_Click) self.parametersPanel.btnLegsEdit.clicked.connect(self.btnLegsEdit_Click) self.parametersPanel.btnLegsExEdit.clicked.connect(self.btnLegsExEdit_Click) # self.connect(self.parametersPanel.pnlFile, SIGNAL("Event_1"), self.method_41) self.parametersPanel.btnLegsPreview.setVisible(True) self.parametersPanel.btnLegsExPreview.setVisible(True)
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("HoldingRnavDlg") self.surfaceType = SurfaceTypes.GeoDetermine self.initParametersPan() self.setWindowTitle(SurfaceTypes.GeoDetermine) self.resize(540, 550) self.surfaceList = None self.date = QDate.currentDate() self.model = MagneticModel.WMM2010 geo = Geo() self.resultLayerList = [] self.resultPoint3d = None self.resultLat = None self.resultLon = None
def uiStateInit(self): self.ui.grbMostCritical.setVisible(False) self.ui.grbResult_2.setVisible(False) self.ui.btnUpdateQA.setVisible(False) self.ui.btnUpdateQA_2.setVisible(False) self.ui.frm_cmbObstSurface.setVisible(False) self.ui.btnPDTCheck.setVisible(False) return FlightPlanBaseDlg.uiStateInit(self)
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 exportResult(self): result, resultHideColumnNames = FlightPlanBaseDlg.exportResult(self) if not result: return filePathDir = QFileDialog.getSaveFileName(self, "Export Obstacle Data", QCoreApplication.applicationDirPath (),"ExportObstaclefiles(*.xml)") if filePathDir == "": return parameterList = self.getParameterList() DataHelper.saveExportResult(filePathDir, self.surfaceType, self.ui.tblObstacles, None, parameterList, resultHideColumnNames)
def btnConstruct_Click(self): flag = FlightPlanBaseDlg.btnConstruct_Click(self) if not flag: return # self.parametersPanel.txtRadius.setText("") point3dCollection = None; point3dCollection1 = None; polylineArea = None; polylineArea1 = None; polylineArea2 = None; point3dArrayResult = [] mapUnits = define._canvas.mapUnits() constructionLayer = None result, point3dCollection, point3dCollection1, polylineArea, polylineArea1, polylineArea2 = self.method_34() if result: point3dCollection2 = []; if (point3dCollection != None and len(point3dCollection) > 0): point3dCollection2.append(point3dCollection[0]); for point3d in point3dCollection1: point3dCollection2.append(point3d); if (point3dCollection != None and len(point3dCollection) > 0): point3dCollection2.append(point3dCollection[3]); # point3dCollection2.pop(3) # point3dCollection2.pop(3) # point3dArrayResult.append(polylineArea1.method_14_closed()) # point3dArrayResult.append(polylineArea2.method_14_closed()) point3dArrayResult.append(PolylineArea(point3dCollection2)) self.area123 = point3dCollection2 self.circleArea = polylineArea nominalPointTest1 = point3dCollection2[2] nominalPointTest2 = point3dCollection2[3] self.nominalPoint = MathHelper.distanceBearingPoint(nominalPointTest1, MathHelper.getBearing(nominalPointTest1, nominalPointTest2), MathHelper.calcDistance(nominalPointTest1, nominalPointTest2) / 2) # if polylineArea.isCircle: # self.parametersPanel.txtRadius.setText(str(polylineArea.Radius())) point3dArrayResult.append(polylineArea) if not len(point3dArrayResult) > 0 : return constructionLayer = AcadHelper.createVectorLayer(self.surfaceType, QGis.Line) for point3dArray in point3dArrayResult: AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, point3dArray, True) nominalTrackLayer = self.nominal2Layer() QgisHelper.appendToCanvas(define._canvas, [constructionLayer, nominalTrackLayer], self.surfaceType) self.resultLayerList = [constructionLayer, nominalTrackLayer] QgisHelper.zoomToLayers(self.resultLayerList) self.ui.btnEvaluate.setEnabled(True)
def __init__(self, parent): FlightPlanBaseDlg.__init__(self, parent) self.setObjectName("PathTerminatorsDlg") self.surfaceType = SurfaceTypes.ProcedureExport self.selectedRow = None self.editingModelIndex = None self.initParametersPan() self.setWindowTitle(SurfaceTypes.ProcedureExport) self.resize(540, 550) QgisHelper.matchingDialogSize(self, 540, 650) self.surfaceList = None self.loaderAixm = DataBaseLoaderAixm() self.directory = None self.adding = False self.newRowIndex = -1 # assa = vars(SurfaceTypes) # asa = SurfaceTypes.__dict__ pass