def nominal2Layer(self):
resultLayer = AcadHelper.createVectorLayer(
"NominalTrack_" +
self.surfaceType.replace(" ", "_").replace("-", "_"), QGis.Line)
startPoint3d = self.parametersPanel.pnlRwyStart.Point3d
derPoint3d = self.parametersPanel.pnlDer.Point3d
bearing = MathHelper.getBearing(startPoint3d, derPoint3d)
derPoint3d1 = MathHelper.distanceBearingPoint(derPoint3d, bearing, 100)
derPoint3d2 = MathHelper.distanceBearingPoint(derPoint3d, bearing,
self.circleArea[0].bulge)
geom = QgsGeometry.fromPolyline(self.area123).intersection(
QgsGeometry.fromPolyline([derPoint3d1, derPoint3d2]))
intersectionPoint1 = geom.asPoint()
derPoint3d1 = MathHelper.distanceBearingPoint(derPoint3d, bearing, 100)
bearing = MathHelper.smethod_4(bearing + math.pi)
derPoint3d2 = MathHelper.distanceBearingPoint(
derPoint3d, bearing,
MathHelper.calcDistance(derPoint3d, startPoint3d) + 200)
geom = QgsGeometry.fromPolyline(
PolylineArea(self.area123).method_14_closed()).intersection(
QgsGeometry.fromPolyline([derPoint3d1, derPoint3d2]))
intersectionPoint2 = geom.asPoint()
AcadHelper.setGeometryAndAttributesInLayer(
resultLayer, [intersectionPoint1, derPoint3d])
return resultLayer
def resultSelectedFeatureByRectTasDraw(self, geom, distance,
direction_bearing):
# flag = FlightPlanBaseSimpleDlg.btnConstruct_Click(self)
# if not flag:
# return
if define._userLayers == None:
mapUnits = define._canvas.mapUnits()
constructionLayer = AcadHelper.createVectorLayer(
"Lines", QGis.Line)
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer, geom.asPolyline(), False,
{"Caption": str(round(distance, 4)) + "m"})
define._userLayers = constructionLayer
palSetting = QgsPalLayerSettings()
palSetting.readFromLayer(constructionLayer)
palSetting.enabled = True
palSetting.fieldName = "Caption"
palSetting.isExpression = True
palSetting.placement = QgsPalLayerSettings.Line
palSetting.placementFlags = QgsPalLayerSettings.AboveLine
palSetting.setDataDefinedProperty(QgsPalLayerSettings.Size, True,
True, '8', "")
palSetting.writeToLayer(constructionLayer)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer],
"Users layer", True)
# self.resultLayerList = [constructionLayer]
else:
# constructionLayer = AcadHelper.createVectorLayer("Lines", QGis.Line)
constructionLayer = define._userLayers
iter = define._userLayers.getFeatures()
equalFlag = 0
for feat in iter:
# AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, feat)
if geom.equals(feat.geometry()):
equalFlag += 1
if equalFlag <= 0:
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer, geom.asPolyline(), False,
{"Caption": str(round(distance, 4)) + "m"})
palSetting = QgsPalLayerSettings()
palSetting.readFromLayer(constructionLayer)
palSetting.enabled = True
palSetting.fieldName = "Caption"
palSetting.isExpression = True
palSetting.placement = QgsPalLayerSettings.Line
palSetting.placementFlags = QgsPalLayerSettings.AboveLine
palSetting.setDataDefinedProperty(QgsPalLayerSettings.Size, True,
True, '8', "")
palSetting.writeToLayer(constructionLayer)
# QgisHelper.appendToCanvas(define._canvas,[constructionLayer], "Users layer", True)
# self.resultLayerList = [constructionLayer]
QgisHelper.zoomToLayers([constructionLayer])
define._userLayers = constructionLayer
pass
def imethod_1(self, layers):
resultLayer = AcadHelper.createVectorLayer(
"Pins Visual Segment Departure")
AcadHelper.setGeometryAndAttributesInLayer(
resultLayer, self.paOIS, True,
{"Surface": PinsSurfaceType.PinsSurfaceType_OIS})
# pointList = self.paOIS.method_14_closed()
# resultLayer = QgisHelper.createPolylineLayer("Pins Visual Segment Departure",
# [(pointList, [("surface", PinsSurfaceType.PinsSurfaceType_OIS)])],
# [QgsField("surface", QVariant.String)])
layers.append(resultLayer)
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 AreaResult(self, area, rubberBand):
if area != None:
rubberBand.setFillColor( QColor(46, 64, 142, 100) )
rubberBand.setBorderColor( QColor(0, 10, 238) )
define._canvas.refresh()
QgisHelper.ClearRubberBandInCanvas(define._canvas)
self.complexObstacleArea.Add(area)
self.stdItemModel.setItem(self.itemCount, QStandardItem(area.ToString()))
# polygon = rubberBand.asGeometry()
# lineList = polygon.asPolygon()
# self.resultPolylineAreaListForDrawing.append(PolylineArea(lineList[0]))
self.itemCount += 1
AcadHelper.setGeometryAndAttributesInLayer(self.constructionLayer, area.PreviewArea, True)
def __init__(self, parent):
QDialog.__init__(self, parent)
self.ui = Ui_DlgComplexAreas()
self.ui.setupUi(self)
self.stdItemModel = QStandardItemModel()
self.ui.lstAreas.setModel(self.stdItemModel)
''' buttons clicked connect '''
self.ui.btnAddPrimaryArea.clicked.connect(self.btnAddPrimaryArea_Click)
self.ui.btnAddSecondaryArea.clicked.connect(self.btnAddSecondaryArea_Click)
self.ui.btnRemove.clicked.connect(self.btnRemove_Click)
self.ui.btnCaptureTrack.clicked.connect(self.btnCaptureTrack_Click)
self.ui.buttonBoxOkCancel.accepted.connect(self.acceptEvent)
self.ui.buttonBoxOkCancel.rejected.connect(self.rejectedEvent)
self.ui.txtTrack.textChanged.connect(self.txtTrack_TextChanged)
self.ui.lstAreas.clicked.connect(self.lstAreas_Click)
self.ui.btnCaptureTrack.clicked.connect(self.captureTrack)
self.complexObstacleArea = ComplexObstacleArea()
self.itemCount = 0
self.selectedModelIndex = None
self.resultPolylineAreaListForDrawing = []
self.method_9()
self.constructionLayer = AcadHelper.createVectorLayer("TempComplexObstacleAreaLayer");
QgisHelper.appendToCanvas(define._canvas, [self.constructionLayer], "Temp")
def btnRemove_Click(self):
if self.selectedModelIndex != None:
if QMessageBox.question(self, "Question", "Do you want to remove the selected item?", QMessageBox.Ok | QMessageBox.Cancel) == QMessageBox.Ok:
n = self.selectedModelIndex.row()
self.complexObstacleArea.pop(n)
self.stdItemModel.removeRow(self.selectedModelIndex.row())
self.itemCount -= 1
self.constructionLayer = AcadHelper.createVectorLayer("TempComplexObstacleAreaLayer")
for area in self.complexObstacleArea:
AcadHelper.setGeometryAndAttributesInLayer(self.constructionLayer, area.PreviewArea, True)
QgisHelper.appendToCanvas(define._canvas, [self.constructionLayer], "Temp")
QgisHelper.ClearRubberBandInCanvas(define._canvas)
pass
def imethod_2(self, layers):
resultLayer = AcadHelper.createVectorLayer(
"Pins Visual Segment Departure")
if (self.paOIS.Count == 4):
face = [
self.paOIS[0].Position, self.paOIS[1].Position,
self.paOIS[2].Position, self.paOIS[3].Position,
self.paOIS[0].Position
]
# resultLayer = QgisHelper.createPolylineLayer("Pins Visual Segment Departure",
# [(face, [("surface", PinsSurfaceType.PinsSurfaceType_OIS)])],
# [QgsField("surface", QVariant.String)])
AcadHelper.setGeometryAndAttributesInLayer(
resultLayer, face, False,
{"Surface": PinsSurfaceType.PinsSurfaceType_OIS})
layers.append(resultLayer)
return
linesList = []
face = [
self.paOIS[0].Position, self.paOIS[1].Position,
self.paOIS[4].Position, self.paOIS[5].Position,
self.paOIS[0].Position
]
AcadHelper.setGeometryAndAttributesInLayer(
resultLayer, face, False,
{"Surface": PinsSurfaceType.PinsSurfaceType_OIS})
linesList.append(
(face, [("surface", PinsSurfaceType.PinsSurfaceType_OIS)]))
face = [
self.paOIS[1].Position, self.paOIS[2].Position,
self.paOIS[3].Position, self.paOIS[4].Position,
self.paOIS[1].Position
]
AcadHelper.setGeometryAndAttributesInLayer(
resultLayer, face, False,
{"Surface": PinsSurfaceType.PinsSurfaceType_OIS})
linesList.append(
(face, [("surface", PinsSurfaceType.PinsSurfaceType_OIS)]))
# resultLayer = QgisHelper.createPolylineLayer("Pins Visual Segment Departure", linesList, [QgsField("surface", QVariant.String)])
layers.append(resultLayer)
def btnConstruct_Click(self):
flag = FlightPlanBaseDlg.btnConstruct_Click(self)
if not flag:
return
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)
polylineArea2 = self.method_35()
polylineAreaTemp = holdingTemplate.vmethod_0(
polylineArea2, self.parametersPanel.chbIntercept.Checked,
self.parametersPanel.chbSectors12.Checked)
polylineArea3 = polylineAreaTemp[0]
polyline = PolylineArea.smethod_131(holdingTemplate.Nominal)
resultPolylineAreaList = []
if (self.parametersPanel.cmbConstruction.SelectedIndex == 0):
constructionLayer = AcadHelper.createVectorLayer(self.surfaceType)
resultPolylineAreaList.append(polylineArea3)
resultPolylineAreaList.append(
PolylineArea.smethod_136(polylineArea2, True))
if (self.parametersPanel.cmbUsedFor.SelectedIndex == 1
or self.parametersPanel.chbCatH.Checked):
for entity in HoldingTemplateBase.smethod_2(
polylineArea3,
Distance(2.5, DistanceUnits.NM) if
(self.parametersPanel.cmbUsedFor.SelectedIndex
== 1) else Distance(2, DistanceUnits.NM)):
resultPolylineAreaList.append(entity)
else:
for entity1 in HoldingTemplateBase.smethod_1(
polylineArea3, True):
resultPolylineAreaList.append(entity1)
if self.parametersPanel.cmbOrientation.SelectedIndex == 0:
polyline[0].bulge = -1
polyline[2].bulge = -1
else:
polyline[0].bulge = 1
polyline[2].bulge = 1
resultPolylineAreaList.append(polyline)
resultPolylineList = []
for polylineArea in resultPolylineAreaList:
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer, polylineArea, True)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer],
self.surfaceType, True)
QgisHelper.zoomToLayers([constructionLayer])
self.resultLayerList = [constructionLayer]
else:
constructionLayer = AcadHelper.createVectorLayer(
self.surfaceType, QGis.Polygon)
geometryList = []
if (self.parametersPanel.cmbUsedFor.SelectedIndex == 1):
distance = Distance(2.5, DistanceUnits.NM) if (
self.parametersPanel.cmbUsedFor.SelectedIndex
== 1) else Distance(2, DistanceUnits.NM)
polylineArea, polylineArea1 = HoldingTemplateBase.smethod_4(
polylineArea3, self.parametersPanel.txtAltitude.Value,
self.parametersPanel.txtMoc.Value, distance)
geometryList = QgisHelper.smethod_146(
polylineArea.method_15(True),
polylineArea1.method_15(True))
else:
geometryList = HoldingTemplateBase.smethod_3(
polylineArea3, self.parametersPanel.txtAltitude.Value,
self.parametersPanel.txtMoc.Value)
i = 0
for entity2 in geometryList:
i += 1
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer,
PolylineArea(geometryList[len(geometryList) -
i].asPolygon()[0]))
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer,
polyline, True)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer],
self.surfaceType, True)
QgisHelper.zoomToLayers([constructionLayer])
self.resultLayerList = [constructionLayer]
self.ui.btnEvaluate.setEnabled(True)
pass
def btnConstruct_Click(self):
flag = FlightPlanBaseSimpleDlg.btnConstruct_Click(self)
if not flag:
return
constructionLayer = AcadHelper.createVectorLayer(SurfaceTypes.DmeTolerance, QGis.Line)
point3d1 = self.parametersPanel.pnlDME.Point3d
circleAreaList = []
# length = self.groundDistance.Metres / 5
# # rectangle = QgsRectangle(point3d1.get_X() - length / 2, point3d1.get_Y() - length / 2, point3d1.get_X() + length / 2, point3d1.get_Y() + length / 2,)
# point1 = Point3D(point3d1.get_X() - length / 2, point3d1.get_Y() + length / 2)
# point2 = Point3D(point3d1.get_X() - length / 2, point3d1.get_Y() - length / 2)
captionCircleLine = []
centerPoint = None
radius = 0.0
arc = None;
resultPoint3dArrayList = []
if (self.groundDistance.Metres > 0):
metres = self.dmeTolerance.valueMetres / 1.7;
if (self.parametersPanel.cmbConstructionType.currentIndex() != 0):
num1 = Unit.ConvertDegToRad(float(self.parametersPanel.pnlRadial.Value));
num2 = math.asin(min([1 / self.groundDistance.NauticalMiles, 1]));
num3 = num1 + num2
num4 = num1 - num2
# arc = PolylineArea()
# arc.Add(PolylineAreaPoint(point3d1, self.groundDistance.Metres))
arc = MathHelper.constructArc(point3d1, self.groundDistance.Metres, num3, num4, 30);
point3d = MathHelper.distanceBearingPoint(point3d1, num1, self.groundDistance.Metres);
captionCircleLine = [MathHelper.distanceBearingPoint(point3d, MathHelper.getBearing(point3d, point3d1) + math.pi / 2, self.groundDistance.Metres / 20), MathHelper.distanceBearingPoint(point3d, MathHelper.getBearing(point3d, point3d1) - math.pi / 2, self.groundDistance.Metres / 20)]
num = -num1;
if (self.parametersPanel.chbDrawRadial.isChecked()):
line = PolylineArea([point3d1, point3d]);
resultPoint3dArrayList.append([point3d1, point3d])
# AcadHelper.smethod_18(transaction, blockTableRecord, line, constructionLayer);
else:
arc = MathHelper.constructCircle(point3d1, self.groundDistance.Metres, 50);
circleAreaList.append(PolylineArea(None, point3d1, self.groundDistance.Metres))
centerPoint = point3d1
radius = self.groundDistance.Metres
point3d = MathHelper.distanceBearingPoint(point3d1, 0, self.groundDistance.Metres);
length = self.groundDistance.Metres / 5
# rectangle = QgsRectangle(point3d1.get_X() - length / 2, point3d1.get_Y() - length / 2, point3d1.get_X() + length / 2, point3d1.get_Y() + length / 2,)
point1 = MathHelper.distanceBearingPoint(point3d, Unit.ConvertDegToRad(270), length / 4)#Point3D(point3d.get_X() - length / 4, point3d.get_Y())
point2 = MathHelper.distanceBearingPoint(point3d, Unit.ConvertDegToRad(90), length / 4)#Point3D(point3d.get_X() + length / 4, point3d.get_Y())
captionCircleLine = [point1, point2]
num = 0;
resultPoint3dArrayList.append(arc)
# AcadHelper.smethod_18(transaction, blockTableRecord, arc, constructionLayer);
if (self.parametersPanel.chbWriteText.isChecked()):
nauticalMiles = self.groundDistance.NauticalMiles;
# DBText dBText = AcadHelper.smethod_138(string.Format("{0} DME", nauticalMiles.ToString("0.#")), point3d, metres, 1);
# dBText.set_Rotation(num);
# AcadHelper.smethod_18(transaction, blockTableRecord, dBText, constructionLayer);
if (self.parametersPanel.chbDrawDmeTol.isVisible() and self.parametersPanel.chbDrawDmeTol.isChecked() and self.dmeTolerance.IsValid() and arc != None):
offsetCurf = QgisHelper.offsetCurve(arc, self.dmeTolerance.Metres)
if self.parametersPanel.cmbConstructionType.currentIndex() == 0:
circleAreaList.append(PolylineArea(None, centerPoint, radius + self.dmeTolerance.Metres))
if (self.parametersPanel.cmbConstructionType.currentIndex() == 0):
endPoint = offsetCurf[0]
offsetCurf.append(endPoint)
resultPoint3dArrayList.append(offsetCurf)
# foreach (Entity offsetCurf in arc.GetOffsetCurves(self.dmeTolerance.Metres))
# {
# AcadHelper.smethod_19(transaction, blockTableRecord, offsetCurf, constructionLayer, 5);
# }
entity = QgisHelper.offsetCurve(arc, -(self.dmeTolerance.Metres + self.slantTolerance.Metres))
if self.parametersPanel.cmbConstructionType.currentIndex() == 0:
circleAreaList.append(PolylineArea(None, centerPoint, radius -(self.dmeTolerance.Metres + self.slantTolerance.Metres)))
if (self.parametersPanel.cmbConstructionType.currentIndex() == 0):
endPoint = entity[0]
entity.append(endPoint)
resultPoint3dArrayList.append(entity)
# foreach (Entity entity in arc.GetOffsetCurves(-(self.dmeTolerance.Metres + self.slantTolerance.Metres)))
# {
# AcadHelper.smethod_19(transaction, blockTableRecord, entity, constructionLayer, 5);
# }
# }
if (self.parametersPanel.chbDrawSlantTol.isVisible() and self.parametersPanel.chbDrawSlantTol.isChecked() and self.slantTolerance.IsValid() and arc != None):
offsetCurf1 = QgisHelper.offsetCurve(arc, -self.slantTolerance.Metres)
if self.parametersPanel.cmbConstructionType.currentIndex() == 0:
circleAreaList.append(PolylineArea(None, centerPoint, radius -self.slantTolerance.Metres))
if (self.parametersPanel.cmbConstructionType.currentIndex() == 0):
endPoint = offsetCurf1[0]
offsetCurf1.append(endPoint)
resultPoint3dArrayList.append(offsetCurf1)
# foreach (Entity offsetCurf1 in arc.GetOffsetCurves(-self.slantTolerance.Metres))
# {
# AcadHelper.smethod_19(transaction, blockTableRecord, offsetCurf1, constructionLayer, 2);
# }
# }
if (self.parametersPanel.chbInsertSymbol.isChecked()):
length = self.groundDistance.Metres / 5
rectangle = QgsRectangle(point3d1.get_X() - length / 2, point3d1.get_Y() - length / 2, point3d1.get_X() + length / 2, point3d1.get_Y() + length / 2,)
point1 = MathHelper.distanceBearingPoint(point3d1, Unit.ConvertDegToRad(315), length / 2)#Point3D(point3d1.get_X() - length / 2, point3d1.get_Y() + length / 2)
point2 = MathHelper.distanceBearingPoint(point3d1, Unit.ConvertDegToRad(225), length / 2)#Point3D(point3d1.get_X() - length / 2, point3d1.get_Y() - length / 2)
point3 = MathHelper.distanceBearingPoint(point3d1, Unit.ConvertDegToRad(135), length / 2)#Point3D(point3d1.get_X() + length / 2, point3d1.get_Y() - length / 2)
point4 = MathHelper.distanceBearingPoint(point3d1, Unit.ConvertDegToRad(45), length / 2)#Point3D(point3d1.get_X() + length / 2, point3d1.get_Y() + length / 2)
resultPoint3dArrayList.append([point1, point2, point3, point4, point1])
# Symbol symbol = new Symbol(SymbolType.Dme);
# AcadHelper.smethod_57(transaction, blockTableRecord, symbol.BlockName, symbol.BlockFileName, point3d1, new Scale3d(1), 0, constructionLayer, None);
# }
for point3dArray in resultPoint3dArrayList:
if (self.parametersPanel.cmbConstructionType.currentIndex() != 0):
bulge = MathHelper.smethod_60(point3dArray[0], point3dArray[int(len(point3dArray)/2)], point3dArray[len(point3dArray)-1])
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, point3dArray, False, {"Bulge":bulge})
if self.parametersPanel.cmbConstructionType.currentIndex() == 0:
for area in circleAreaList:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, area)
if self.parametersPanel.chbInsertSymbol.isChecked():
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, [point1, point2, point3, point4, point1])
if (self.parametersPanel.chbWriteText.isChecked()):
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, captionCircleLine, False, {"Caption":"3DME"} )
palSetting = QgsPalLayerSettings()
palSetting.readFromLayer(constructionLayer)
palSetting.enabled = True
palSetting.fieldName = "Caption"
palSetting.isExpression = True
palSetting.placement = QgsPalLayerSettings.Line
palSetting.placementFlags = QgsPalLayerSettings.AboveLine
palSetting.setDataDefinedProperty(QgsPalLayerSettings.Size, True, True, '12', "")
palSetting.writeToLayer(constructionLayer)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer], self.surfaceType, True)
QgisHelper.zoomToLayers([constructionLayer])
self.resultLayerList = [constructionLayer]
def btnConstruct_Click(self):
flag = FlightPlanBaseDlg.btnConstruct_Click(self)
if not flag:
return
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;
nominalTrackLayer = AcadHelper.createNominalTrackLayer([MathHelper.distanceBearingPoint(point3d, num4, metres2), MathHelper.distanceBearingPoint(point3d, num4, metres3)], None, "memory", "NominalTrack_" + self.surfaceType.replace(" ", "_").replace("-", "_"))
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, point3d5, point3d10, point3d12))
self.complexObstacleArea.Add(SecondaryObstacleArea(point3d7, point3d11, point3d9, point3d6))
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(point3d12, point3d8, point3d10, point3d5, MathHelper.getBearing(point3d8, point3d12)))
self.complexObstacleArea.Add(SecondaryObstacleArea(point3d11, point3d7, point3d9, point3d6, MathHelper.getBearing(point3d7, point3d11)))
if self.parametersPanel.cmbConstructionType.currentText() == ConstructionType.Construct2D:
constructionLayer = AcadHelper.createVectorLayer(self.surfaceType)
for point3dArray in resultPoint3dArrayList:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, point3dArray)
else:
constructionLayer = AcadHelper.createVectorLayer(self.surfaceType, QGis.Polygon)
# if define._mapCrs == None:
# if mapUnits == QGis.Meters:
# constructionLayer = QgsVectorLayer("polygon?crs=EPSG:32633", self.surfaceType, "memory")
# else:
# constructionLayer = QgsVectorLayer("polygon?crs=EPSG:4326", self.surfaceType, "memory")
# else:
# constructionLayer = QgsVectorLayer("polygon?crs=%s"%define._mapCrs.authid (), self.surfaceType, "memory")
# constructionLayer.startEditing()
for point3dArray in resultPoint3dArrayList:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, PolylineArea(point3dArray).method_14_closed())
# polygon = QgsGeometry.fromPolygon([point3dArray])
# feature = QgsFeature()
# feature.setGeometry(polygon)
# constructionLayer.addFeature(feature)
# constructionLayer.commitChanges()
QgisHelper.appendToCanvas(define._canvas, [constructionLayer, nominalTrackLayer], self.surfaceType)
self.resultLayerList = [constructionLayer, nominalTrackLayer]
QgisHelper.zoomToLayers(self.resultLayerList)
self.ui.btnEvaluate.setEnabled(True)
self.manualEvent(self.parametersPanel.cmbSelectionMode.currentIndex())
def DrawCanvas(self):
qgsLayerTreeView = define._mLayerTreeView
groupName = self.surfaceType
layerTreeModel = qgsLayerTreeView.layerTreeModel()
layerTreeGroup = layerTreeModel.rootGroup()
rowCount = layerTreeModel.rowCount()
groupExisting = False
if rowCount > 0:
for i in range(rowCount):
qgsLayerTreeNode = layerTreeModel.index2node(layerTreeModel.index(i, 0))
if qgsLayerTreeNode.nodeType() == 0:
qgsLayerTreeNode._class_ = QgsLayerTreeGroup
if isinstance(qgsLayerTreeNode, QgsLayerTreeGroup) and qgsLayerTreeNode.name() == groupName:
groupExisting = True
if groupExisting:
if len(self.resultLayerList) > 0:
QgisHelper.removeFromCanvas(define._canvas, self.resultLayerList)
self.resultLayerList = []
else:
QtGui.QMessageBox.warning(self, "Warning", "Please remove \"" + self.surfaceType + "\" layer group from LayerTreeView.")
return
constructionLayer = AcadHelper.createVectorLayer(self.surfaceType);
if self.comboBox.currentIndex() == ProtectionAreaType.Primary or self.comboBox.currentIndex() == ProtectionAreaType.Secondary:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, self.area.PreviewArea, True)
elif self.comboBox.currentIndex() == ProtectionAreaType.PrimaryAndSecondary:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, self.area.primaryArea.PreviewArea, True)
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, self.area.secondaryArea1.PreviewArea, True)
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, self.area.secondaryArea2.PreviewArea, True)
else:
for obstacleArea in self.area:
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer, obstacleArea.PreviewArea, True)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer], self.surfaceType)
self.resultLayerList = [constructionLayer]
def btnConstruct_Click(self):
flag = FlightPlanBaseDlg.btnConstruct_Click(self)
if not flag:
return
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)
polylineArea2 = self.method_35()
polylineAreaTemp = holdingTemplate.vmethod_0(
polylineArea2, self.parametersPanel.chbIntercept.Checked,
self.parametersPanel.chbSectors12.Checked)
polylineArea3 = polylineAreaTemp[0]
polyline = PolylineArea.smethod_131(holdingTemplate.Nominal)
resultPolylineAreaList = []
if (self.parametersPanel.cmbConstruction.SelectedIndex == 0):
constructionLayer = AcadHelper.createVectorLayer(self.surfaceType)
resultPolylineAreaList.append(polylineArea3)
resultPolylineAreaList.append(
PolylineArea.smethod_136(polylineArea2, True))
if (self.parametersPanel.cmbUsedFor.SelectedIndex == 1
or self.parametersPanel.chbCatH.Checked):
for entity in HoldingTemplateBase.smethod_2(
polylineArea3,
Distance(2.5, DistanceUnits.NM) if
(self.parametersPanel.cmbUsedFor.SelectedIndex
== 1) else Distance(2, DistanceUnits.NM)):
resultPolylineAreaList.append(entity)
else:
for entity1 in HoldingTemplateBase.smethod_1(
polylineArea3, True):
resultPolylineAreaList.append(entity1)
if self.parametersPanel.cmbOrientation.SelectedIndex == 0:
polyline[0].bulge = -1
polyline[2].bulge = -1
else:
polyline[0].bulge = 1
polyline[2].bulge = 1
resultPolylineAreaList.append(polyline)
resultPolylineList = []
for polylineArea in resultPolylineAreaList:
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer, polylineArea, True)
# point3dCollection = []
# for polylineAreaPoint in polylineArea:
#
# point3dCollection.append(polylineAreaPoint.Position)
# resultPolylineList.append((point3dCollection, []))
# constructionLayer = QgisHelper.createPolylineLayer(self.surfaceType, resultPolylineList)
QgisHelper.appendToCanvas(define._canvas, [constructionLayer],
self.surfaceType, True)
QgisHelper.zoomToLayers([constructionLayer])
self.resultLayerList = [constructionLayer]
else:
# polyline.set_Elevation(self.pnlAltitude.Value.Metres);
# polyline.set_Thickness(-self.pnlMoc.Value.Metres);
constructionLayer = AcadHelper.createVectorLayer(
self.surfaceType, QGis.Polygon)
# mapUnits = define._canvas.mapUnits()
# constructionLayer = None
# if define._mapCrs == None:
# if mapUnits == QGis.Meters:
# constructionLayer = QgsVectorLayer("polygon?crs=EPSG:32633", self.surfaceType, "memory")
# else:
# constructionLayer = QgsVectorLayer("polygon?crs=EPSG:4326", self.surfaceType, "memory")
# else:
# constructionLayer = QgsVectorLayer("polygon?crs=%s"%define._mapCrs.authid (), self.surfaceType, "memory")
# shpPath = ""
# if define.obstaclePath != None:
# shpPath = define.obstaclePath
# elif define.xmlPath != None:
# shpPath = define.xmlPath
# else:
# shpPath = define.appPath
# er = QgsVectorFileWriter.writeAsVectorFormat(constructionLayer, shpPath + "/" + QString(self.surfaceType).replace(" ", "") + ".shp", "utf-8", constructionLayer.crs())
# constructionLayer = QgsVectorLayer(shpPath + "/" + QString(self.surfaceType).replace(" ", "") + ".shp", self.surfaceType, "ogr")
#
#
# constructionLayer.startEditing()
geometryList = []
if (self.parametersPanel.cmbUsedFor.SelectedIndex == 1):
distance = Distance(2.5, DistanceUnits.NM) if (
self.parametersPanel.cmbUsedFor.SelectedIndex
== 1) else Distance(2, DistanceUnits.NM)
polylineArea, polylineArea1 = HoldingTemplateBase.smethod_4(
polylineArea3, self.parametersPanel.txtAltitude.Value,
self.parametersPanel.txtMoc.Value, distance)
# point3dCollection = polylineArea.method_15(False)
# point3dCollection1 = polylineArea1.method_15(False)
geometryList = QgisHelper.smethod_146(
polylineArea.method_15(True),
polylineArea1.method_15(True))
else:
geometryList = HoldingTemplateBase.smethod_3(
polylineArea3, self.parametersPanel.txtAltitude.Value,
self.parametersPanel.txtMoc.Value)
# feature = QgsFeature()
# feature.setGeometry(QgsGeometry.fromPolygon([polyline.method_14_closed()]))
# constructionLayer.addFeature(feature)
i = 0
for entity2 in geometryList:
i += 1
AcadHelper.setGeometryAndAttributesInLayer(
constructionLayer,
PolylineArea(geometryList[len(geometryList) -
i].asPolygon()[0]))
# feature = QgsFeature()
# feature.setGeometry(entity2)
# constructionLayer.addFeature(feature)
AcadHelper.setGeometryAndAttributesInLayer(constructionLayer,
polyline, True)
# constructionLayer.commitChanges()
QgisHelper.appendToCanvas(define._canvas, [constructionLayer],
self.surfaceType, True)
QgisHelper.zoomToLayers([constructionLayer])
self.resultLayerList = [constructionLayer]
self.ui.btnEvaluate.setEnabled(True)
# AcadHelper.smethod_18(transaction, blockTableRecord, entity2, constructionLayer);
pass
