def calcTimeRate(self): for i in range(6): item = self.stdModel.item(3, self.data["CatOfAcftCount"][0] + 6 + i) val = 0.0 try: val = float(item.text()) except: continue time = (3600 * self.data["Distance"]) / val minute = int(time / 60) second = int(time % 60) timeStr = str(minute) + " : " + str(second) if second == 0: timeStr = str(minute) + " : " + "00" elif second < 10: timeStr = str(minute) + " : 0" + str(second) itemTemp = QStandardItem(timeStr) itemTemp.setTextAlignment(Qt.AlignCenter) self.stdModel.setItem(4, self.data["CatOfAcftCount"][0] + 6 + i, itemTemp) rate = int( (val * 6076.1 * (AngleGradientSlope(self.data["DescentGradient"]).Percent / float(100))) / float(60)) itemTemp = QStandardItem(str(rate)) itemTemp.setTextAlignment(Qt.AlignCenter) self.stdModel.setItem(5, self.data["CatOfAcftCount"][0] + 6 + i, itemTemp)
def smethod_0(iwin32Window_0): num = 0 str0 = "" navigationalAidList = NavigationalAidList() NavigationalAidList.NavigationalAidList() navigationalAidList.append(OmnidirectionalNavigationalAid("DME N", AngleGradientSlope(1), Distance(3000), Distance(300), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("VOR", AngleGradientSlope(1), Distance(3000), Distance(600), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("Directional Finder (DF)", AngleGradientSlope(1), Distance(3000), Distance(500), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("Markers", AngleGradientSlope(20), Distance(200), Distance(50), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("NDB", AngleGradientSlope(5), Distance(1000), Distance(200), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("GBAS ground reference receiver", AngleGradientSlope(3), Distance(3000), Distance(400), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("GBAS VDB station", AngleGradientSlope(0.9), Distance(3000), Distance(300), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("SBAS ground monitoring station", AngleGradientSlope(3), Distance(3000), Distance(400), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("VHF (Communication Tx)", AngleGradientSlope(1), Distance(2000), Distance(300), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("VHF (Communication Rx)", AngleGradientSlope(1), Distance(2000), Distance(300), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("PSR", AngleGradientSlope(0.25), Distance(15000), Distance(500), True)) navigationalAidList.append(OmnidirectionalNavigationalAid("SSR", AngleGradientSlope(0.25), Distance(15000), Distance(500), True)) navigationalAidList.append(DirectionalNavigationalAid("ILS LOC (single freq.)", Distance.NaN(), Distance(500), Altitude(70), Distance(6000), Distance(500), Altitude(10), Distance(2300), AngleGradientSlope(30), True)) navigationalAidList.append(DirectionalNavigationalAid("ILS LOC (dual freq.)", Distance.NaN(), Distance(500), Altitude(70), Distance(6000), Distance(500), Altitude(20), Distance(1500), AngleGradientSlope(20), True)) navigationalAidList.append(DirectionalNavigationalAid("ILS GP M-Type (dual freq.)", Distance(800), Distance(50), Altitude(70), Distance(6000), Distance(250), Altitude(5), Distance(325), AngleGradientSlope(10), True)) navigationalAidList.append(DirectionalNavigationalAid("MLS AZ", Distance.NaN(), Distance(20), Altitude(70), Distance(6000), Distance(600), Altitude(20), Distance(1500), AngleGradientSlope(40), True)) navigationalAidList.append(DirectionalNavigationalAid("MLS EL", Distance(300), Distance(20), Altitude(70), Distance(6000), Distance(200), Altitude(20), Distance(1500), AngleGradientSlope(40), True)) navigationalAidList.append(DirectionalNavigationalAid("DME (directional antennas)", Distance.NaN(), Distance(20), Altitude(70), Distance(6000), Distance(600), Altitude(20), Distance(1500), AngleGradientSlope(40), True)) try: if (QFile.exists(NavigationalAidList.fileName)): xmlFile = XmlFile(NavigationalAidList.fileName, "NavigationalAids", False) xmlNodeLists = xmlFile.elementsByTagName("NavigationalAid") if (xmlNodeLists != None): count = xmlNodeLists.count() for i in range(count): xmlElement = xmlNodeLists.item(i) # foreach (XmlElement xmlElement in xmlNodeLists) result1, num = xmlFile.method_7(xmlElement, "Type") result2, str0 = xmlFile.method_7(xmlElement, "Name") if (not result1 or not result2): continue for case in switch(num): if case(NavigationalAidType.Omnidirectional): navigationalAidList.Add(OmnidirectionalNavigationalAid(None, xmlFile, xmlElement, str0)) continue elif case(NavigationalAidType.Directional): navigationalAidList.Add(DirectionalNavigationalAid(None, xmlFile, xmlElement, str0)) continue elif case(NavigationalAidType.LineOfSight): navigationalAidList.Add(LineOfSight(None, xmlFile, xmlElement, str0)) continue else: continue except: # Exception exception = exception1 QMessageBox.warning(iwin32Window_0, "Error", Messages.ERR_FAILED_TO_LOAD_NAVAID_DATA_FILE) # ErrorMessageBox.smethod_0(iwin32Window_0, string.Format(Messages.ERR_FAILED_TO_LOAD_NAVAID_DATA_FILE, exception.Message)) navigationalAidList.method_1() return navigationalAidList
def txtDegreeChanged(self): try: test = float(self.txtDegree.text()) if self.flag == 0: self.flag = 2 if self.flag == 1: self.flag = 0 if self.flag == 2: try: self.txtPercent.setText( str( round( AngleGradientSlope(float( self.txtDegree.text())).Percent, 4))) except: self.txtPercent.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.txtPercent.setText("0.0")
def get_Value(self): return AngleGradientSlope(float(self.txtDegree.text()))
def set_Criteria(self, value): if value == None: return self.criteria = value self.pnlName.Value = self.criteria.Name if (self.criteria.Approach.Enabled): self.pnlAPP_InnerEdge.Value = Distance( self.criteria.Approach.InnerEdge) self.pnlAPP_DistFromTHR.Value = Distance( self.criteria.Approach.DistFromTHR) self.pnlAPP_Divergence.Value = AngleGradientSlope( self.criteria.Approach.Divergence, AngleGradientSlopeUnits.Percent) self.pnlAPP_Length1.Value = Distance( self.criteria.Approach.Length1) self.pnlAPP_Slope1.Value = AngleGradientSlope( self.criteria.Approach.Slope1, AngleGradientSlopeUnits.Percent) if (self.criteria.Approach.HasSection2): self.pnlAPP_Length2.Value = Distance( self.criteria.Approach.Length2) self.pnlAPP_Slope2.Value = AngleGradientSlope( self.criteria.Approach.Slope2, AngleGradientSlopeUnits.Percent) self.pnlAPP_Length3.Value = Distance( self.criteria.Approach.Length3) self.pnlAPP_TotalLength.Value = Distance( self.criteria.Approach.TotalLength) self.cmbBL_DistFromTHR.SelectedIndex = 0 if (self.criteria.BalkedLanding.Enabled): self.pnlBL_InnerEdge.Value = Distance( self.criteria.BalkedLanding.InnerEdge) if (not MathHelper.smethod_97( self.criteria.BalkedLanding.DistFromTHR, 0)): self.txtBL_DistFromTHR.Value = Distance( self.criteria.BalkedLanding.DistFromTHR) if (not self.criteria.BalkedLanding.DistFromTHRFixed): self.cmbBL_DistFromTHR.SelectedIndex = 1 else: self.cmbBL_DistFromTHR.SelectedIndex = 2 else: self.cmbBL_DistFromTHR.SelectedIndex = 0 self.pnlBL_Divergence.Value = AngleGradientSlope( self.criteria.BalkedLanding.Divergence, AngleGradientSlopeUnits.Percent) self.pnlBL_Slope.Value = AngleGradientSlope( self.criteria.BalkedLanding.Slope, AngleGradientSlopeUnits.Percent) if (self.criteria.Conical.Enabled): self.pnlCON_Slope.Value = AngleGradientSlope( self.criteria.Conical.Slope, AngleGradientSlopeUnits.Percent) self.pnlCON_Height.Value = Altitude(self.criteria.Conical.Height) if (self.criteria.InnerApproach.Enabled): self.pnlIA_Width.Value = Distance( self.criteria.InnerApproach.Width) self.pnlIA_DistFromTHR.Value = Distance( self.criteria.InnerApproach.DistFromTHR) self.pnlIA_Length.Value = Distance( self.criteria.InnerApproach.Length) self.pnlIA_Slope.Value = AngleGradientSlope( self.criteria.InnerApproach.Slope, AngleGradientSlopeUnits.Percent) self.pnlIH_Location.SelectedItem = self.criteria.InnerHorizontal.Location self.pnlIH_Height.Value = Altitude( self.criteria.InnerHorizontal.Height) self.pnlIH_Radius.Value = Distance( self.criteria.InnerHorizontal.Radius) if (self.criteria.InnerTransitional.Enabled): self.pnlIT_Slope.Value = AngleGradientSlope( self.criteria.InnerTransitional.Slope, AngleGradientSlopeUnits.Percent) if (self.criteria.NavigationalAid.Enabled): self.pnlNA_Slope.Value = AngleGradientSlope( self.criteria.NavigationalAid.Slope, AngleGradientSlopeUnits.Percent) if (self.criteria.OuterHorizontal.Enabled): self.pnlOH_Height.Value = Altitude( self.criteria.OuterHorizontal.Height) self.pnlOH_Radius.Value = Distance( self.criteria.OuterHorizontal.Radius) self.pnlS_Width.Value = Distance(self.criteria.Strip.Width) self.pnlS_Length.Value = Distance(self.criteria.Strip.Length) if (not self.criteria.TakeOff.DistFromENDFixed): self.cmbTO_DistFromEND.SelectedIndex = 0 else: self.cmbTO_DistFromEND.SelectedIndex = 1 if (self.criteria.TakeOff.Enabled): self.pnlTO_InnerEdge.Value = Distance( self.criteria.TakeOff.InnerEdge) self.txtTO_DistFromEND.Value = Distance( self.criteria.TakeOff.DistFromEND) self.pnlTO_Divergence.Value = AngleGradientSlope( self.criteria.TakeOff.Divergence, AngleGradientSlopeUnits.Percent) self.pnlTO_FinalWidth.Value = Distance( self.criteria.TakeOff.FinalWidth) self.pnlTO_Length.Value = Distance(self.criteria.TakeOff.Length) self.pnlTO_Slope.Value = AngleGradientSlope( self.criteria.TakeOff.Slope, AngleGradientSlopeUnits.Percent) if (self.criteria.Transitional.Enabled): self.pnlT_Slope.Value = AngleGradientSlope( self.criteria.Transitional.Slope, AngleGradientSlopeUnits.Percent)