def changeType(self): if self.ui.txtToal != "" and self.ui.cmbMeasureType.currentIndex( ) != self.measureType: if self.measureType == DistanceUnits.M: if self.ui.cmbMeasureType.currentIndex() == DistanceUnits.FT: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertMeterToFeet(dist))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.KM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(dist / 1000.0)) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.NM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertMeterToNM(dist))) elif self.measureType == DistanceUnits.FT: if self.ui.cmbMeasureType.currentIndex() == DistanceUnits.M: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertFeetToMeter(dist))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.KM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText( str(Unit.ConvertFeetToMeter(dist) / 1000.0)) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.NM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertFeetToNM(dist))) elif self.measureType == DistanceUnits.KM: if self.ui.cmbMeasureType.currentIndex() == DistanceUnits.M: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertKMToMeters(dist))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.FT: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertKMToFeet(dist))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.NM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertKMToNM(dist))) elif self.measureType == DistanceUnits.NM: if self.ui.cmbMeasureType.currentIndex() == DistanceUnits.M: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText(str(Unit.ConvertNMToMeter(dist))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.FT: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText( str( Unit.ConvertMeterToFeet( Unit.ConvertNMToMeter(dist)))) elif self.ui.cmbMeasureType.currentIndex() == DistanceUnits.KM: dist = float(self.ui.txtToal.text()) self.ui.txtToal.setText( str(Unit.ConvertNMToMeter(dist) / 1000.0)) self.measureType = self.ui.cmbMeasureType.currentIndex()
def smethod_1(polylineArea_0, bool_0): polylineAreaList = HoldingTemplateBase.smethod_0( polylineArea_0, Unit.ConvertNMToMeter(1), 5) if (bool_0): polylineAreaList.append(polylineArea_0) # dBObjectCollection.Insert(0, AcadHelper.smethod_131(polylineArea_0)); # } return polylineAreaList
def txtDistance1Changed(self): try: test = float(self.txtDistance1.text()) if self.flag==0: self.flag=1; if self.flag==2: self.flag=0; if self.flag==1: try: self.txtDistance.setText(str(round(Unit.ConvertNMToMeter(float(self.txtDistance1.text())), 4))) except: self.txtDistance.setText("0.0") self.emit(SIGNAL("Event_0"), self) except: str0 = "You must input the float type in \"%s\"."%(self.Caption) QMessageBox.warning(self, "Warning" , str0) self.txtDistance.setText("0.0")
def method_29(self): self.dmeTolerance = Distance.NaN self.slantTolerance = Distance.NaN self.pilotDistance = Distance.NaN self.groundDistance = Distance.NaN if self.parametersPanel.txtDistance.text() == "" or self.parametersPanel.txtAcAltitude.text() == "" or self.parametersPanel.txtDmeAltitude.text() == "": self.parametersPanel.gbResult.setVisible(False) else: nauticalMiles = float(self.parametersPanel.txtDistance.text()) metres = Altitude(float(self.parametersPanel.txtAcAltitude.text()), AltitudeUnits.FT).Metres value = Altitude(float(self.parametersPanel.txtDmeAltitude.text())) num = Unit.ConvertMeterToNM(metres - value.Metres) if (nauticalMiles <= 0): self.parametersPanel.label_72.setText(Captions.DME_TOLERANCE_OVERHEAD) self.dmeTolerance = Distance(460) elif (num <= nauticalMiles): if (self.parametersPanel.cmbCalculationType.currentIndex() != 0): self.groundDistance = Distance(math.sqrt(nauticalMiles * nauticalMiles - num * num), DistanceUnits.NM) self.pilotDistance = Distance(nauticalMiles, DistanceUnits.NM) self.slantTolerance = Distance(self.pilotDistance.NauticalMiles - self.groundDistance.NauticalMiles, DistanceUnits.NM) self.parametersPanel.lblResultDistance.setText(Captions.GROUND_DISTANCE) self.parametersPanel.label_72.setText(Captions.DME_TOLERANCE) self.parametersPanel.txtResultDistance.setText(str(round(self.groundDistance.NauticalMiles,2)) +" nm" + " / " + str(round(self.groundDistance.Metres,2)) +" m") else: self.pilotDistance = Distance(math.sqrt(nauticalMiles * nauticalMiles + num * num), DistanceUnits.NM) self.groundDistance = Distance(nauticalMiles, DistanceUnits.NM) self.slantTolerance = Distance(nauticalMiles - math.sqrt(nauticalMiles * nauticalMiles - num * num), DistanceUnits.NM) self.parametersPanel.lblResultDistance.setText(Captions.PILOT_READOUT) self.parametersPanel.label_72.setText(Captions.DME_TOLERANCE) self.parametersPanel.txtResultDistance.setText(str(round(self.pilotDistance.NauticalMiles, 2)) +" nm" + " / " + str(round(self.pilotDistance.Metres, 2)) +" m") self.dmeTolerance = Distance(Unit.ConvertNMToMeter(self.pilotDistance.NauticalMiles * 0.0125) + 460) else: flag = False if (self.dmeTolerance.IsValid()): self.parametersPanel.txtResultDmeTol.setText(str(round(self.dmeTolerance.NauticalMiles, 2)) +" nm" + " / " + str(round(self.dmeTolerance.Metres, 2)) +" m") if (self.slantTolerance.IsValid()): self.parametersPanel.txtResultSlantTol.setText(str(round(self.slantTolerance.NauticalMiles, 2)) +"nm" + " / " + str(round(self.slantTolerance.Metres, 2)) +" m") self.parametersPanel.frame_62.setVisible(False if not self.pilotDistance.IsValid() else self.groundDistance.IsValid()) self.parametersPanel.frame_TakeOffSurfaceTrack_2.setVisible(self.dmeTolerance.IsValid()) self.parametersPanel.frame_TakeOffSurfaceTrack_3.setVisible(self.slantTolerance.IsValid()) # self.txtResult.Visible = !flag self.parametersPanel.gbResult.setVisible(True)
def smethod_3(polylineArea_0, altitude_0, altitude_1): # DBObjectCollection dBObjectCollection; polylineAreaList = HoldingTemplateBase.smethod_0( polylineArea_0, Unit.ConvertNMToMeter(1), 5) # DBObjectCollection dBObjectCollection2 = new DBObjectCollection(); num = 0.5 metres = altitude_0.Metres - altitude_1.Metres resultGeometryList = [] for i in range(5): if (i > 0): metres = altitude_0.Metres - num * altitude_1.Metres num = num - 0.1 # (dBObjectCollection1.get_Item(i) as Polyline).set_Elevation(metres); # DBObjectCollection dBObjectCollection3 = new DBObjectCollection(); # dBObjectCollection3.Add(dBObjectCollection1.get_Item(i)); item = polylineAreaList[i].method_14_closed(4) itemGeometry = QgsGeometry.fromPolygon([item]) # item.SetDatabaseDefaults(); if (i > 0): # (dBObjectCollection1.get_Item(i - 1) as Polyline).set_Elevation(metres); # DBObjectCollection dBObjectCollection4 = new DBObjectCollection(); # dBObjectCollection4.Add(dBObjectCollection1.get_Item(i - 1)); regionGeometry = QgsGeometry.fromPolygon( [polylineAreaList[i - 1].method_14_closed(4)]) polygonNew = itemGeometry.difference(regionGeometry) resultGeometryList.append(polygonNew) else: resultGeometryList.append(itemGeometry) # region.SetDatabaseDefaults(); # item.BooleanOperation(2, region); # region.Dispose(); # } # dBObjectCollection2.Add(item); # } # dBObjectCollection = dBObjectCollection2; return resultGeometryList