def getPointArray(self, geomList):
pointArrayInner = geomList[0]
pointArray1Outer = geomList[1]
innerStartPoint = pointArrayInner[0]
innerEndPoint = pointArrayInner[1]
innerBulge = pointArrayInner[2]
outerStartPoint = pointArray1Outer[0]
outerEndPoint = pointArray1Outer[1]
outerBulge = pointArray1Outer[2]
line0 = QgsGeometry.fromPolyline([innerStartPoint, outerStartPoint])
line1 = QgsGeometry.fromPolyline([innerEndPoint, outerEndPoint])
# for i in range(1, len(pointArray0)):
if line0.intersects(line1):
tempPoint = outerStartPoint
outerStartPoint = outerEndPoint
outerEndPoint = tempPoint
outerBulge = -outerBulge
polylineArea = PolylineArea()
polylineArea.Add(PolylineAreaPoint(innerStartPoint, innerBulge))
polylineArea.Add(PolylineAreaPoint(innerEndPoint))
polylineArea.Add(PolylineAreaPoint(outerEndPoint, -outerBulge))
polylineArea.Add(PolylineAreaPoint(outerStartPoint))
return polylineArea
def makePrimaryAreaOrSecondaryArea(self, geomList, areaType):
pointArrayInner = geomList[0]
pointArray1Outer = geomList[1]
innerStartPoint = pointArrayInner[0]
innerEndPoint = pointArrayInner[1]
innerBulge = pointArrayInner[2]
outerStartPoint = pointArray1Outer[0]
outerEndPoint = pointArray1Outer[1]
outerBulge = pointArray1Outer[2]
line0 = QgsGeometry.fromPolyline([innerStartPoint, outerStartPoint])
line1 = QgsGeometry.fromPolyline([innerEndPoint, outerEndPoint])
# for i in range(1, len(pointArray0)):
if line0.intersects(line1):
tempPoint = Point3D(outerStartPoint.get_X(), outerStartPoint.get_Y())
outerStartPoint = Point3D(outerEndPoint.get_X(), outerEndPoint.get_Y())
outerEndPoint = Point3D(tempPoint.get_X(), tempPoint.get_Y())
outerBulge = -outerBulge
if areaType == ProtectionAreaType.Primary:
polylineArea = PolylineArea()
polylineArea.Add(PolylineAreaPoint(innerStartPoint, innerBulge))
polylineArea.Add(PolylineAreaPoint(innerEndPoint))
polylineArea.Add(PolylineAreaPoint(outerEndPoint, -outerBulge))
polylineArea.Add(PolylineAreaPoint(outerStartPoint))
return PrimaryObstacleArea(polylineArea)
elif areaType == ProtectionAreaType.Secondary:
if innerBulge == 0 and outerBulge == 0:
return SecondaryObstacleArea(innerStartPoint, innerEndPoint, outerStartPoint, outerEndPoint, MathHelper.getBearing(innerStartPoint, innerEndPoint))
elif innerBulge != 0 and outerBulge != 0:
if round(innerBulge, 1) != round(outerBulge, 1):
return None
innerCenterPoint = MathHelper.smethod_71(innerStartPoint, innerEndPoint, innerBulge)
outerCenterPoint = MathHelper.smethod_71(outerStartPoint, outerEndPoint, outerBulge)
innerRadius = MathHelper.calcDistance(innerCenterPoint, innerStartPoint);
outerRadius = MathHelper.calcDistance(outerCenterPoint, outerStartPoint);
bearing = (MathHelper.getBearing(innerCenterPoint, innerStartPoint) + MathHelper.getBearing(innerCenterPoint, innerEndPoint)) / 2
innerMiddlePoint = MathHelper.distanceBearingPoint(innerCenterPoint, bearing, innerRadius)
if round(MathHelper.smethod_60(innerStartPoint, innerMiddlePoint, innerEndPoint), 4) != round(outerBulge, 4):
bearing += 3.14159265358979
innerMiddlePoint = MathHelper.distanceBearingPoint(innerCenterPoint, bearing, innerRadius)
bearing = (MathHelper.getBearing(outerCenterPoint, outerStartPoint) + MathHelper.getBearing(outerCenterPoint, outerEndPoint)) / 2
outerMiddlePoint = MathHelper.distanceBearingPoint(outerCenterPoint, bearing, outerRadius)
if round(MathHelper.smethod_60(outerStartPoint, outerMiddlePoint, outerEndPoint), 4) != round(outerBulge, 4):
bearing += 3.14159265358979
outerMiddlePoint = MathHelper.distanceBearingPoint(outerCenterPoint, bearing, outerRadius)
return SecondaryObstacleArea(innerStartPoint, innerMiddlePoint, innerEndPoint, outerStartPoint, None, outerMiddlePoint, outerEndPoint, innerBulge, innerBulge)
return None
def TransformBy(self, polylineArea, angle_radian, centerPoint):
resultPoilylineArea = PolylineArea()
for polylineAreaPoint in polylineArea:
point3d = polylineAreaPoint.Position
bearing = MathHelper.smethod_4(MathHelper.getBearing(centerPoint, point3d) + angle_radian + Unit.ConvertDegToRad(180))
resultPoilylineArea.Add(PolylineAreaPoint(MathHelper.distanceBearingPoint(centerPoint, bearing, MathHelper.calcDistance(point3d, centerPoint)), polylineAreaPoint.Bulge))
return resultPoilylineArea
def get_Length(self):
# line = self.getQgsPolyline()
# return line.length()
polylineArea = PolylineArea()
for polylinePoint in self:
polylineArea.Add(PolylineAreaPoint(polylinePoint.point3d, polylinePoint.bulge))
pointArray = polylineArea.method_14(4)
count = len(pointArray)
length = 0.0
for i in range(1, count):
length += MathHelper.calcDistance(pointArray[i-1], pointArray[i])
return length
def getGeometry(self):
pointList = []
polygonsList = []
width = self[0].startWidth
if MathHelper.smethod_96(self[0].bulge):
pt0 = MathHelper.distanceBearingPoint(self[0].point3d, MathHelper.getBearing(self[0].point3d, self[1].point3d) - Unit.ConvertDegToRad(90), width / 2.0,)
pt1 = MathHelper.distanceBearingPoint(self[0].point3d, MathHelper.getBearing(self[0].point3d, self[1].point3d) + Unit.ConvertDegToRad(90), width / 2.0,)
pt2 = MathHelper.distanceBearingPoint(self[1].point3d, MathHelper.getBearing(self[0].point3d, self[1].point3d) + Unit.ConvertDegToRad(90), width / 2.0,)
pt3 = MathHelper.distanceBearingPoint(self[1].point3d, MathHelper.getBearing(self[0].point3d, self[1].point3d) - Unit.ConvertDegToRad(90), width / 2.0,)
geom = QgsGeometry.fromPolygon([[pt0, pt1, pt2, pt3]])
polygonsList.append(geom)
else:
polylineArea = PolylineArea()
polylineArea.Add(PolylineAreaPoint(self[0].point3d, self[0].bulge))
polylineArea.Add(PolylineAreaPoint(self[1].point3d))
pointArray = polylineArea.method_14(4)
pt0 = MathHelper.distanceBearingPoint(self[0].point3d, MathHelper.getBearing(self[0].point3d, pointArray[1]) - Unit.ConvertDegToRad(90), width / 2.0,)
pt1 = MathHelper.distanceBearingPoint(self[0].point3d, MathHelper.getBearing(self[0].point3d, pointArray[1]) + Unit.ConvertDegToRad(90), width / 2.0,)
pt2 = MathHelper.distanceBearingPoint(self[1].point3d, MathHelper.getBearing(pointArray[len(pointArray) - 2], self[1].point3d) + Unit.ConvertDegToRad(90), width / 2.0,)
pt3 = MathHelper.distanceBearingPoint(self[1].point3d, MathHelper.getBearing(pointArray[len(pointArray) - 2], self[1].point3d) - Unit.ConvertDegToRad(90), width / 2.0,)
polylineArea0 = PolylineArea()
polylineArea0.Add(PolylineAreaPoint(pt0, self[0].bulge))
polylineArea0.Add(PolylineAreaPoint(pt3))
polylineArea1 = PolylineArea()
polylineArea1.Add(PolylineAreaPoint(pt2, -self[0].bulge))
polylineArea1.Add(PolylineAreaPoint(pt1))
pointArrayResult = []
for pt in polylineArea0.method_14(4):
pointArrayResult.append(pt)
for pt in polylineArea1.method_14(4):
pointArrayResult.append(pt)
geom = QgsGeometry.fromPolygon([pointArrayResult])
polygonsList.append(geom)
return polygonsList
# for i in range(self.NumberOfVertices):
# polylinePoint = self[i]
#
# if polylinePoint.startWidth != width:
# if len(pointList) > 1:
# geom = QgsGeometry.fromPolyline(pointList)
# polygon = geom.buffer(width / 2.0, 0, 2, 0, 0)
# polygonsList.append(polygon)
# width = polylinePoint.startWidth
# pointList = []
# pointList.append(polylinePoint.point3d)
# if not MathHelper.smethod_96(polylinePoint.bulge):
# if i != self.NumberOfVertices - 1:
# point3d = self[i + 1].point3d
# else:
# point3d = self[0].point3d
# MathHelper.getArc(polylinePoint.point3d, point3d, polylinePoint.bulge, 4, pointList)
#
# if len(pointList) > 1:
# geom = QgsGeometry.fromPolyline(pointList)
# polygon = geom.buffer(width / 2.0, 0, 2, 0, 0)
# polygonsList.append(polygon)
return polygonsList
def vmethod_0(self, polylineArea_0, bool_0, bool_1):
point3dArray = self.area.method_14_closed(4)
polylineArea0 = PolylineArea(point3dArray)
polylineAreaList = [] #self.area]
point3dCollection = []
for i in range(4):
matrix = Matrix3d.Displacement(
self.ptBase.GetVectorTo(polylineArea_0[i].Position))
polylinAreaNew = polylineArea0.TransformBy(matrix)
polylineAreaList.append(polylinAreaNew)
point3dCollection = []
for point3d0 in self.bounds:
point3d = point3d0.TransformBy(matrix)
point3dCollection.append(point3d)
point3dCollection.append(self.bounds[0].TransformBy(matrix))
polylineAreaList.append(polylinAreaNew)
polylineAreaList.append(PolylineArea(point3dCollection))
# point3dCollection0 = MathHelper.smethod_190(point3dCollection)
# polylinAreaNew = PolylineArea(point3dCollection0)
# polylineAreaList.append(polylinAreaNew)
# # break
if bool_1:
polylineAreaList.extend(self.method_3(polylineArea_0))
if bool_0:
polylineAreaList.extend(self.method_2(polylineArea_0))
# polylineAreaList.append(polylineArea_0)
#
# return polylineAreaList
pointList = QgisHelper.convexFull(polylineAreaList)
# pointList = QgisHelper.UnionFromPolylineAreaList(polylineAreaList)
polylineArea = PolylineArea()
for point in pointList:
polylineArea.Add(PolylineAreaPoint(point))
return [polylineArea]
class ObstacleAreaJigCreateArea(QgsMapTool):
def __init__(self, canvas, areaType):
QgsMapTool.__init__(self, canvas)
self.mCanvas = canvas
self.areaType = areaType
self.annotation = None
self.rubberBand = QgsRubberBand(canvas, QGis.Point)
self.rubberBand.setColor(Qt.red)
self.rubberBand.setWidth(10)
self.rubberBandClick = QgsRubberBand(canvas, QGis.Point)
self.rubberBandClick.setColor(Qt.green)
self.rubberBandClick.setWidth(3)
self.obstaclesLayerList = QgisHelper.getSurfaceLayers(SurfaceTypes.Obstacles)
self.demLayerList = QgisHelper.getSurfaceLayers(SurfaceTypes.DEM)
self.mRubberBand = None
self.mRubberBand0 = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mCursor = Qt.ArrowCursor
self.mFillColor = QColor( 254, 178, 76, 63 )
self.mBorderColour = QColor( 254, 58, 29, 100 )
self.mRubberBand0.setBorderColor( self.mBorderColour )
self.polygonGeom = None
self.drawFlag = False
self.mSnapper = QgsMapCanvasSnapper(canvas)
self.resultPolylineArea = PolylineArea()
# self.constructionLayer = constructionLayer
self.menuString = ""
self.isPrimaryPolylineStarted = False
self.primaryPolyline = PolylineArea()
def createContextMenu(self, areaType, isStarted = False):
menu = QMenu()
# h = QHBoxLayout(menu)
# c = QCalendarWidget()
# h.addWidget(c)
if areaType == ProtectionAreaType.Primary:
actionEnter = QgisHelper.createAction(menu, "Enter", self.menuEnterClick)
actionCancel = QgisHelper.createAction(menu, "Cancel", self.menuCancelClick)
actionArc = QgisHelper.createAction(menu, "Arc", self.menuArcClick)
actionUndo = QgisHelper.createAction(menu, "Undo", self.menuUndoClick)
menu.addAction( actionEnter )
menu.addAction( actionCancel )
menu.addAction( actionArc )
menu.addAction( actionUndo )
elif areaType == ProtectionAreaType.Secondary:
if not isStarted:
actionEnter = QgisHelper.createAction(menu, "Enter", self.menuEnterClick)
actionCancel = QgisHelper.createAction(menu, "Cancel", self.menuCancelClick)
actionUndo = QgisHelper.createAction(menu, "Undo", self.menuUndoClick)
actionPrimatyPolylineStart = QgisHelper.createAction(menu, "Strat INNER edge of the secondary area", self.menuPrimaryStartClick)
actionPrimatyPolylineEnd = QgisHelper.createAction(menu, "End INNER edge of the secondary area", self.menuPrimaryEndClick)
menu.addAction( actionEnter )
menu.addAction( actionCancel )
menu.addAction( actionUndo )
menu.addAction( actionPrimatyPolylineStart )
menu.addAction( actionPrimatyPolylineEnd )
actionPrimatyPolylineStart.setEnabled(not self.isPrimaryPolylineStarted)
actionPrimatyPolylineEnd.setEnabled(self.isPrimaryPolylineStarted)
else:
actionPrimatyPolylineStart = QgisHelper.createAction(menu, "Strat INNER edge of the secondary area", self.menuPrimaryStartClick)
actionPrimatyPolylineEnd = QgisHelper.createAction(menu, "End INNER edge of the secondary area", self.menuPrimaryEndClick)
menu.addAction( actionPrimatyPolylineStart )
menu.addAction( actionPrimatyPolylineEnd )
actionPrimatyPolylineStart.setEnabled(not self.isPrimaryPolylineStarted)
actionPrimatyPolylineEnd.setEnabled(self.isPrimaryPolylineStarted)
return menu
def menuPrimaryStartClick(self):
self.primaryPolyline = PolylineArea()
self.isPrimaryPolylineStarted = True
# self.menuString = "Enter"
def menuPrimaryEndClick(self):
self.isPrimaryPolylineStarted = False
# self.menuString = "Enter"
def menuEnterClick(self):
self.menuString = "Enter"
def menuCancelClick(self):
self.menuString = "Cancel"
def menuArcClick(self):
self.menuString = "Arc"
def menuUndoClick(self):
self.menuString = "Undo"
def reset(self):
self.Point = None
def canvasPressEvent( self, e ):
define._messageLabel.setText("")
self.menuString = ""
pointBackground = e.pos()
# self.Point = QgisHelper.snapPoint(e.pos(), self.mSnapper, define._canvas)
self.Point, self.pointID, self.layer= self.snapPoint(e.pos())
self.selectedLayerFromSnapPoint = None
if ( self.mRubberBand == None ):
self.resultPolylineArea = PolylineArea()
self.mRubberBand0.reset( QGis.Polygon )
# define._canvas.clearCache ()
self.mRubberBand = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mRubberBand0 = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mRubberBand.setFillColor( self.mFillColor )
self.mRubberBand.setBorderColor( self.mBorderColour )
self.mRubberBand0.setFillColor( QColor(255, 255, 255, 100) )
self.mRubberBand0.setBorderColor( QColor(0, 0, 0) )
if ( e.button() == Qt.LeftButton ):
if self.Point == None:
self.mRubberBand.addPoint( self.toMapCoordinates( e.pos() ) )
self.resultPolylineArea.Add(PolylineAreaPoint(self.toMapCoordinates( e.pos() )))
if self.isPrimaryPolylineStarted:
self.primaryPolyline.Add(PolylineAreaPoint(self.toMapCoordinates( e.pos() )))
else:
self.mRubberBand.addPoint( self.Point )
self.resultPolylineArea.Add(PolylineAreaPoint(self.Point))
if self.isPrimaryPolylineStarted:
self.primaryPolyline.Add(PolylineAreaPoint(self.toMapCoordinates( e.pos() )))
else:
menu = None
if self.areaType == ProtectionAreaType.Secondary and len(self.resultPolylineArea) == 0:
menu = self.createContextMenu(self.areaType, True)
menu.exec_( define._canvas.mapToGlobal(e.pos() ))
return
if ( self.mRubberBand.numberOfVertices() > 2 ):
self.polygonGeom = self.mRubberBand.asGeometry()
else:
return
# QgsMapToolSelectUtils.setSelectFeatures( self.mCanvas, polygonGeom, e )
menu = self.createContextMenu(self.areaType)
menu.exec_( define._canvas.mapToGlobal(e.pos() ))
if self.menuString == "Cancel" or self.menuString == "Arc":
return
elif self.menuString == "Undo":
if ( self.mRubberBand.numberOfVertices() > 0 ):
self.mRubberBand = None
QgisHelper.ClearRubberBandInCanvas(define._canvas)
self.mRubberBand = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mRubberBand.setFillColor( self.mFillColor )
self.mRubberBand.setBorderColor( self.mBorderColour )
self.resultPolylineArea[self.resultPolylineArea.Count - 2].bulge = 0.0
self.resultPolylineArea.pop(self.resultPolylineArea.Count - 1)
if self.isPrimaryPolylineStarted and len(self.primaryPolyline) > 0:
self.primaryPolyline.pop(self.primaryPolyline.Count - 1)
for pt in self.resultPolylineArea.method_14():
self.mRubberBand.addPoint(pt)
return
elif self.menuString == "Enter":
# if self.areaType == ProtectionAreaType.Secondary:
# if self.resultPolylineArea.Count != 4:
# define._messageLabel.setText("The count of point of Secondary Area must be 4.")
# return
self.mRubberBand.reset( QGis.Polygon )
self.mRubberBand0.reset( QGis.Polygon )
# define._canvas.clearCache ()
self.mRubberBand0 = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mRubberBand0.setFillColor( QColor(255, 255, 255, 100) )
self.mRubberBand0.setBorderColor( QColor(0, 0, 0) )
for pt in self.resultPolylineArea.method_14():
self.mRubberBand0.addPoint(pt)
# self.mRubberBand0.addGeometry(self.polygonGeom, None)
n = self.mRubberBand0.numberOfVertices()
self.mRubberBand0.show()
self.mRubberBand = None
area = None
if self.areaType == ProtectionAreaType.Primary:
area = PrimaryObstacleArea(self.resultPolylineArea)
elif self.areaType == ProtectionAreaType.Secondary:
if len(self.resultPolylineArea) == 4:
area = SecondaryObstacleArea(self.resultPolylineArea[0].Position, self.resultPolylineArea[1].Position, self.resultPolylineArea[3].Position, self.resultPolylineArea[2].Position, MathHelper.getBearing(self.resultPolylineArea[0].Position, self.resultPolylineArea[1].Position))
else:
if self.primaryPolyline.Count < 2:
define._messageLabel.setText("The PrimaryLine in Secondary Area must exist.")
return
if self.isPrimaryPolylineStarted:
define._messageLabel.setText("You must finish the input of PrimaryLine.")
return
area = SecondaryObstacleAreaWithManyPoints(self.resultPolylineArea, self.primaryPolyline)
self.emit(SIGNAL("outputResult"), area, self.mRubberBand0)
n = 0
def canvasMoveEvent( self, e ):
self.rubberBand.reset(QGis.Point)
# snapPoint = QgisHelper.snapPoint(e.pos(), self.mSnapper , define._canvas, True)
snapPoint, snapPointID, layer = self.snapPoint(e.pos(), True)
if snapPoint != None:
self.rubberBand.addPoint(snapPoint)
self.rubberBand.show()
if ( self.mRubberBand == None ):
return
if ( self.mRubberBand.numberOfVertices() > 0 ):
if self.menuString != "Undo":
self.mRubberBand.removeLastPoint( 0 )
else:
self.menuString = ""
point2 = None
if snapPoint != None:
self.mRubberBand.addPoint( snapPoint)
point2 = snapPoint
else:
self.mRubberBand.addPoint( self.toMapCoordinates( e.pos() ) )
point2 = self.toMapCoordinates( e.pos() )
if self.menuString == "Arc":
point0 = self.resultPolylineArea[self.resultPolylineArea.Count - 2].Position
point1 = self.resultPolylineArea[self.resultPolylineArea.Count - 1].Position
# point2 = self.mRubberBand.getPoint(self.mRubberBand.numberOfVertices() - 1)
bulge = MathHelper.smethod_60(point0, point1, point2)
self.resultPolylineArea[self.resultPolylineArea.Count - 2].bulge = bulge
self.mRubberBand = None
QgisHelper.ClearRubberBandInCanvas(define._canvas)
self.mRubberBand = QgsRubberBand( self.mCanvas, QGis.Polygon )
self.mRubberBand.setFillColor( self.mFillColor )
self.mRubberBand.setBorderColor( self.mBorderColour )
for pt in self.resultPolylineArea.method_14():
self.mRubberBand.addPoint(pt)
self.mRubberBand.addPoint(point2)
def snapPoint(self, p, bNone = False):
if define._snapping == False:
return (define._canvas.getCoordinateTransform().toMapCoordinates( p ), None, None)
snappingResults = self.mSnapper.snapToBackgroundLayers( p )
if ( snappingResults[0] != 0 or len(snappingResults[1]) < 1 ):
if bNone:
return (None, None, None)
else:
return (define._canvas.getCoordinateTransform().toMapCoordinates( p ), None, None)
else:
return (snappingResults[1][0].snappedVertex, snappingResults[1][0].snappedAtGeometry, snappingResults[1][0].layer)
def deactivate(self):
self.rubberBand.reset(QGis.Point)
QgsMapTool.deactivate(self)
self.emit(SIGNAL("deactivated()"))
class HoldingTemplate(HoldingTemplateBase):
'''
classdocs
'''
def __init__(self, point3d_0, double_0, speed_0, altitude_0, speed_1,
double_1, double_2, orientationType_0):
'''
Constructor
'''
# double num;
# double num1;
# double num2;
# double num3;
# double num4;
# Point3d point3d;
# Point3d point3d1;
# Point3d point3d2;
# Point3d point3d3;
# Point3d point3d4;
# Point3d point3d5;
# Point3d point3d6;
# Point3d point3d7;
# Point3d point3d8;
# Point3d point3d9;
# Point3d point3d10;
# Point3d point3d11;
# Point3d point3d12;
# Point3d point3d13;
# Point3d point3d14;
# Point3d point3d15;
# Point3d point3d16;
# Point3d point3d17;
# Point3d point3d18;
# Point3d point3d19;
# Point3d point3d20;
# Point3d point3d21;
# Point3d point3d22;
# Point3d point3d23;
# Point3d point3d24;
# Point3d point3d25;
# Point3d point3d26;
# Point3d point3d27;
# Point3d point3d28;
# Point3d point3d29;
# Point3d point3d30;
# Point3d point3d31;
# Point3d point3d32;
# Point3d point3d33;
# Point3d point3d34;
# Point3d point3d35;
point3d_0 = point3d_0.smethod_167(0)
self.ptBase = point3d_0
self.trackDeg = MathHelper.smethod_3(double_0)
self.trackRad = MathHelper.smethod_4(Unit.ConvertDegToRad(double_0))
self.orientation = orientationType_0
self.tas = Speed.smethod_0(speed_0, double_1, altitude_0)
self.R = min([943.27 / self.tas.KilometresPerHour, 3])
self.radius = Distance(
Unit.ConvertKMToMeters(self.tas.KilometresPerHour /
(62.8318530717959 * self.R)))
metresPerSecond = self.tas.MetresPerSecond
metres = self.radius.Metres
kilometresPerHour = speed_1.KilometresPerHour
metresPerSecond1 = speed_1.MetresPerSecond
r = 45 * metresPerSecond1 / self.R
double2 = double_2 * 60
self.ds = Distance(metresPerSecond * double2)
self.wd = Distance(
math.sqrt(self.ds.Metres * self.ds.Metres + 4 * metres * metres))
num5 = 5 * metresPerSecond
num6 = 11 * metresPerSecond
num7 = (double2 - 5) * metresPerSecond
num8 = (double2 - 5) * metresPerSecond
num9 = (double2 + 21) * metresPerSecond
num10 = (double2 + 21) * metresPerSecond
num11 = 5 * metresPerSecond1
num12 = 11 * metresPerSecond1
num13 = num12 + r
num14 = num12 + 2 * r
num15 = num12 + 3 * r
num16 = num12 + 4 * r
num17 = num11 + 5 * r
num18 = num11 + 6 * r
num19 = (double2 + 6) * metresPerSecond1 + 4 * r
num20 = (double2 + 6) * metresPerSecond1 + 4 * r
num21 = num19 + 14 * metresPerSecond1
num22 = num19 + 14 * metresPerSecond1
num23 = num21 + r
num24 = num21 + 2 * r
num25 = num21 + 2 * r
num26 = num21 + 3 * r
num27 = num19 + 4 * r
num28 = num21 + 4 * r
r1 = 2 * metres + (double2 + 15) * metresPerSecond + (
double2 + 26 + 195 / self.R) * metresPerSecond1
num29 = 11 * metresPerSecond * math.cos(Unit.ConvertDegToRad(
20)) + metres * (1 + math.sin(Unit.ConvertDegToRad(20))) + (
double2 + 15) * metresPerSecond * math.tan(
Unit.ConvertDegToRad(5)) + (
double2 + 26 + 125 / self.R) * metresPerSecond1
self.ias = speed_0
self.wind = speed_1
self.isa = double_1
self.altitude = altitude_0
self.time = double_2
num30 = 1 if (orientationType_0 == OrientationType.Right) else -1
turnDirection = TurnDirection.Right if (
orientationType_0 == OrientationType.Right) else TurnDirection.Left
turnDirection1 = TurnDirection.Left if (
orientationType_0
== OrientationType.Right) else TurnDirection.Right
point3d36 = MathHelper.distanceBearingPoint(point3d_0, 0, 0)
point3d37 = MathHelper.distanceBearingPoint(
point3d36, Unit.ConvertDegToRad(double_0), num5)
point3d38 = MathHelper.distanceBearingPoint(
point3d36, Unit.ConvertDegToRad(double_0), num6)
point3d39 = MathHelper.distanceBearingPoint(
point3d38, Unit.ConvertDegToRad(double_0 + num30 * 90), metres)
point3d40 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * -45), metres)
point3d41 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0), metres)
point3d42 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * 45), metres)
point3d43 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * 90), metres)
point3d39 = MathHelper.distanceBearingPoint(
point3d37, Unit.ConvertDegToRad(double_0 + num30 * 90), metres)
MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * 90), metres)
point3d44 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * 135), metres)
point3d45 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + 180), metres)
point3d46 = MathHelper.distanceBearingPoint(
point3d43, Unit.ConvertDegToRad(double_0 + 180 - num30 * 5), num7)
point3d47 = MathHelper.distanceBearingPoint(
point3d43, Unit.ConvertDegToRad(double_0 + 180 - num30 * 5), num9)
point3d48 = MathHelper.distanceBearingPoint(
point3d43, Unit.ConvertDegToRad(double_0 + 180 + num30 * 5), num8)
point3d49 = MathHelper.distanceBearingPoint(
point3d43, Unit.ConvertDegToRad(double_0 + 180 + num30 * 5), num10)
point3d39 = MathHelper.distanceBearingPoint(
point3d47, Unit.ConvertDegToRad(double_0 - num30 * 90), metres)
point3d50 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + 180 - num30 * 45),
metres)
point3d51 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + 180), metres)
MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + num30 * 90), metres)
point3d39 = MathHelper.distanceBearingPoint(
point3d49, Unit.ConvertDegToRad(double_0 - num30 * 90), metres)
point3d52 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + 180), metres)
point3d53 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 + 180 + num30 * 45),
metres)
point3d54 = MathHelper.distanceBearingPoint(
point3d39, Unit.ConvertDegToRad(double_0 - num30 * 90), metres)
point3d55 = MathHelper.distanceBearingPoint(
point3d48, Unit.ConvertDegToRad(double_0 - num30 * 90), metres * 2)
point3d, num = MathHelper.smethod_193(point3d38, num12, point3d40,
num13, point3d41, num14, False)
point3d1, num1 = MathHelper.smethod_193(point3d41, num14, point3d42,
num15, point3d43, num16, False)
point3d2, num2 = MathHelper.smethod_193(point3d43, num16, point3d44,
num17, point3d45, num18, False)
point3d3, num3 = MathHelper.smethod_193(point3d47, num21, point3d50,
num23, point3d51, num24, False)
point3d4, num4 = MathHelper.smethod_193(point3d52, num25, point3d53,
num26, point3d54, num28, False)
point3d56 = MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(double_0 - num30 * 90), num4)
point3d57 = MathHelper.distanceBearingPoint(
point3d56, Unit.ConvertDegToRad(double_0 + num30 * 90), num29)
point3d58 = MathHelper.distanceBearingPoint(
point3d3, Unit.ConvertDegToRad(double_0 + 180), num3)
point3d58 = MathHelper.getIntersectionPoint(
point3d_0,
MathHelper.distanceBearingPoint(
point3d_0, Unit.ConvertDegToRad(double_0 + 180), 100),
point3d58,
MathHelper.distanceBearingPoint(
point3d58, Unit.ConvertDegToRad(double_0 + 90), 100))
point3d59 = MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(double_0 + 180), num4)
point3d59 = MathHelper.getIntersectionPoint(
point3d_0,
MathHelper.distanceBearingPoint(
point3d_0, Unit.ConvertDegToRad(double_0 + 180), 100),
point3d59,
MathHelper.distanceBearingPoint(
point3d59, Unit.ConvertDegToRad(double_0 + 90), 100))
point3d5 = MathHelper.distanceBearingPoint(
point3d58, Unit.ConvertDegToRad(double_0),
r1) if (MathHelper.calcDistance(point3d_0, point3d58) >=
MathHelper.calcDistance(point3d_0, point3d59)
) else MathHelper.distanceBearingPoint(
point3d59, Unit.ConvertDegToRad(double_0), r1)
self.ptE = MathHelper.getIntersectionPoint(
point3d5,
MathHelper.distanceBearingPoint(
point3d5, Unit.ConvertDegToRad(double_0 + 90), 100), point3d57,
MathHelper.distanceBearingPoint(point3d57,
Unit.ConvertDegToRad(double_0),
100))
self.nominal = PolylineArea()
point3d56 = MathHelper.distanceBearingPoint(
point3d_0, Unit.ConvertDegToRad(double_0 + num30 * 90), 2 * metres)
point3d58 = MathHelper.distanceBearingPoint(
point3d56, Unit.ConvertDegToRad(double_0 + 180), self.ds.Metres)
point3d59 = MathHelper.distanceBearingPoint(
point3d58, Unit.ConvertDegToRad(double_0 - num30 * 90), 2 * metres)
self.nominal.Add(
PolylineAreaPoint(
point3d_0,
MathHelper.smethod_59(Unit.ConvertDegToRad(double_0),
point3d_0, point3d56)))
self.nominal.method_1(point3d56)
self.nominal.Add(
PolylineAreaPoint(
point3d58,
MathHelper.smethod_59(Unit.ConvertDegToRad(double_0 + 180),
point3d58, point3d59)))
self.nominal.method_1(point3d59)
self.nominal.method_1(point3d_0)
self.wd = Distance(MathHelper.calcDistance(point3d_0, point3d58))
self.area = PolylineArea()
point3dCollection = []
point3dCollection.append(
MathHelper.distanceBearingPoint(point3d,
Unit.ConvertDegToRad(double_0),
num))
point3dCollection.append(
MathHelper.distanceBearingPoint(point3d1,
Unit.ConvertDegToRad(double_0),
num1))
point3dCollection.append(
MathHelper.distanceBearingPoint(
point3d3, Unit.ConvertDegToRad(double_0 + num30 * 90), num3))
point3dCollection.append(
MathHelper.distanceBearingPoint(
point3d3, Unit.ConvertDegToRad(double_0 + 180), num3))
point3dCollection.append(
MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(double_0 + 180), num4))
point3dCollection.append(
MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(double_0 - num30 * 90), num4))
point3dCollection.append(
MathHelper.distanceBearingPoint(point3d55,
Unit.ConvertDegToRad(double_0),
num27))
point3d7, point3d8 = MathHelper.smethod_91(point3d3, num3, point3d4,
num4, turnDirection)
point3d9, point3d10 = MathHelper.smethod_91(point3d4, num4, point3d55,
num27, turnDirection)
point3d11, point3d12 = MathHelper.smethod_91(point3d4, num4, point3d,
num, turnDirection)
point3d13, point3d14 = MathHelper.smethod_91(point3d4, num4, point3d1,
num1, turnDirection)
point3d15, point3d16 = MathHelper.smethod_91(point3d4, num4, point3d3,
num3, turnDirection)
point3d17, point3d18 = MathHelper.smethod_91(point3d55, num27, point3d,
num, turnDirection)
point3d19, point3d20 = MathHelper.smethod_91(point3d55, num27,
point3d1, num1,
turnDirection)
point3d21, point3d22 = MathHelper.smethod_91(point3d55, num27,
point3d3, num3,
turnDirection)
point3d23, point3d6 = MathHelper.smethod_91(point3d, num, point3d1,
num1, turnDirection)
point3d24, point3d25 = MathHelper.smethod_91(point3d1, num1, point3d46,
num19, turnDirection)
point3d26, point3d27 = MathHelper.smethod_91(point3d46, num19,
point3d3, num3,
turnDirection)
point3d28, point3d29 = MathHelper.smethod_91(point3d43, num16,
point3d48, num20,
turnDirection1)
point3d30, point3d31 = MathHelper.smethod_91(point3d48, num20,
point3d49, num22,
turnDirection1)
if (num4 >= MathHelper.calcDistance(point3d4, point3d55) + num27):
self.area.method_1(point3d7)
self.area.method_3(
point3d8,
MathHelper.smethod_57(turnDirection, point3d8, point3d9,
point3d4))
self.area.method_1(point3d9)
if (num27 <= MathHelper.calcDistance(point3d55, point3d1) + num1):
flag = False
if (num27 < MathHelper.calcDistance(point3d55, point3d) + num):
point3d39 = MathHelper.distanceBearingPoint(
point3d18,
MathHelper.getBearing(point3d17, point3d18) +
1.5707963267949 * num30, 100)
flag = MathHelper.smethod_119(
point3d23, point3d18,
point3d39) if (turnDirection != TurnDirection.Right
) else MathHelper.smethod_115(
point3d23, point3d18, point3d39)
if (flag):
self.area.Add(
PolylineAreaPoint(
point3d10,
MathHelper.smethod_57(turnDirection, point3d10,
point3d17, point3d55)))
self.area.method_1(point3d17)
self.area.method_3(
point3d18,
MathHelper.smethod_57(turnDirection, point3d18,
point3d23, point3d))
self.area.method_3(
point3d23,
MathHelper.smethod_57(turnDirection, point3d23,
point3d24, point3d1))
self.area.method_1(point3d24)
else:
self.area.Add(
PolylineAreaPoint(
point3d10,
MathHelper.smethod_57(turnDirection, point3d10,
point3d19, point3d55)))
self.area.method_1(point3d19)
self.area.Add(
PolylineAreaPoint(
point3d20,
MathHelper.smethod_57(turnDirection, point3d20,
point3d24, point3d1)))
self.area.method_1(point3d24)
self.area.method_3(
point3d25,
MathHelper.smethod_57(turnDirection, point3d25, point3d26,
point3d46))
self.area.method_1(point3d26)
self.area.method_3(
point3d27,
MathHelper.smethod_57(turnDirection, point3d27, point3d7,
point3d3))
self.area.method_1(point3d7)
else:
self.area.method_3(
point3d10,
MathHelper.smethod_57(turnDirection, point3d10, point3d21,
point3d55))
self.area.method_1(point3d21)
self.area.method_3(
point3d22,
MathHelper.smethod_57(turnDirection, point3d22, point3d7,
point3d3))
self.area.method_1(point3d7)
elif (num4 <= MathHelper.calcDistance(point3d4, point3d1) + num1):
flag1 = False
if (num4 < MathHelper.calcDistance(point3d4, point3d) + num):
point3d39 = MathHelper.distanceBearingPoint(
point3d12,
MathHelper.getBearing(point3d11, point3d12) +
1.5707963267949 * num30, 100)
flag1 = MathHelper.smethod_119(
point3d23, point3d12,
point3d39) if (turnDirection != TurnDirection.Right
) else MathHelper.smethod_115(
point3d23, point3d12, point3d39)
if (flag1):
self.area.method_1(point3d7)
self.area.method_3(
point3d8,
MathHelper.smethod_57(turnDirection, point3d8, point3d11,
point3d4))
self.area.method_1(point3d11)
self.area.method_3(
point3d12,
MathHelper.smethod_57(turnDirection, point3d12, point3d23,
point3d))
self.area.method_3(
point3d23,
MathHelper.smethod_57(turnDirection, point3d23, point3d24,
point3d1))
self.area.method_1(point3d24)
else:
self.area.method_1(point3d7)
self.area.method_3(
point3d8,
MathHelper.smethod_57(turnDirection, point3d8, point3d13,
point3d4))
self.area.method_1(point3d13)
self.area.method_3(
point3d14,
MathHelper.smethod_57(turnDirection, point3d14, point3d24,
point3d1))
self.area.method_1(point3d24)
self.area.method_3(
point3d25,
MathHelper.smethod_57(turnDirection, point3d25, point3d26,
point3d46))
self.area.method_1(point3d26)
self.area.method_3(
point3d27,
MathHelper.smethod_57(turnDirection, point3d27, point3d7,
point3d3))
self.area.method_1(point3d7)
else:
self.area.method_1(point3d7)
self.area.method_3(
point3d8,
MathHelper.smethod_57(turnDirection, point3d8, point3d15,
point3d4))
self.area.method_1(point3d15)
self.area.method_3(
point3d16,
MathHelper.smethod_57(turnDirection, point3d16, point3d7,
point3d3))
self.area.method_1(point3d7)
self.outboundLineTop = PolylineArea()
self.outboundLineTop.method_1(point3d24)
self.outboundLineTop.method_3(
point3d25,
MathHelper.smethod_57(turnDirection, point3d25, point3d26,
point3d46))
# PolylineArea polylineArea = self.outboundLineTop;
point3dArray = [point3d26, point3d27]
self.outboundLineTop.method_7(point3dArray)
self.outboundLineBottom = PolylineArea()
self.outboundLineBottom.method_1(point3d28)
self.outboundLineBottom.method_3(
point3d29,
MathHelper.smethod_57(turnDirection1, point3d29, point3d30,
point3d48))
# PolylineArea polylineArea1 = self.outboundLineBottom;
point3dArray = [point3d30, point3d31]
self.outboundLineBottom.method_7(point3dArray)
self.spiral = PolylineArea()
if (MathHelper.calcDistance(point3d, point3d_0) <= num):
point3d32_39 = []
MathHelper.smethod_34(
point3d_0,
MathHelper.distanceBearingPoint(point3d_0,
Unit.ConvertDegToRad(double_0),
100), point3d, num,
point3d32_39)
point3d32 = point3d32_39[0]
point3d39 = point3d32_39[1]
point3d33 = MathHelper.distanceBearingPoint(
point3d, MathHelper.getBearing(point3d, point3d38), num)
self.spiral.Add(
PolylineAreaPoint(
point3d32,
MathHelper.smethod_57(turnDirection, point3d32, point3d33,
point3d)))
else:
point3d32, point3d33 = MathHelper.smethod_91(
point3d_0, 0, point3d, num, turnDirection)
self.spiral.method_1(point3d32)
point3d34, point3d35 = MathHelper.smethod_91(point3d, num, point3d1,
num1, turnDirection)
self.spiral.Add(
PolylineAreaPoint(
point3d33,
MathHelper.smethod_57(turnDirection, point3d33, point3d34,
point3d)))
point3d33 = point3d34
point3d34, point3d35 = MathHelper.smethod_91(point3d1, num1, point3d2,
num2, turnDirection)
self.spiral.Add(
PolylineAreaPoint(
point3d33,
MathHelper.smethod_57(turnDirection, point3d33, point3d34,
point3d1)))
point3d33 = point3d34
point3d39 = MathHelper.distanceBearingPoint(
point3d2, Unit.ConvertDegToRad(double_0 + 180), num2)
self.spiral.Add(
PolylineAreaPoint(
point3d33,
MathHelper.smethod_57(turnDirection, point3d33, point3d39,
point3d2)))
self.spiral.method_1(point3d39)
self.method_0(point3dCollection)
self.method_1(
MathHelper.distanceBearingPoint(point3d1,
Unit.ConvertDegToRad(double_0),
num1),
MathHelper.distanceBearingPoint(
point3d2, Unit.ConvertDegToRad(double_0 + num30 * 90), num2),
MathHelper.distanceBearingPoint(
point3d2, Unit.ConvertDegToRad(double_0 + 180), num2))
point3d56 = MathHelper.distanceBearingPoint(
point3d_0, Unit.ConvertDegToRad(double_0 + 180), 1000)
point3d39 = MathHelper.getIntersectionPoint(point3d_0, point3d56,
point3d7, point3d8)
point3d6_58 = []
MathHelper.smethod_34(point3d_0, point3d56, point3d3, num3,
point3d6_58)
point3d6 = point3d6_58[0]
point3d58 = point3d6_58[1]
point3d6_59 = []
MathHelper.smethod_34(point3d_0, point3d56, point3d4, num4,
point3d6_59)
point3d6 = point3d6_59[0]
point3d59 = point3d6_59[1]
if (orientationType_0 == OrientationType.Right):
if (not MathHelper.smethod_119(point3d39, point3d3, point3d7) or
not MathHelper.smethod_115(point3d39, point3d4, point3d8)):
self.ptC = point3d58 if (MathHelper.calcDistance(
point3d_0, point3d58) > MathHelper.calcDistance(
point3d_0, point3d59)) else point3d59
else:
self.ptC = point3d39
elif (not MathHelper.smethod_115(point3d39, point3d3, point3d7)
or not MathHelper.smethod_119(point3d39, point3d4, point3d8)):
self.ptC = point3d58 if (
MathHelper.calcDistance(point3d_0, point3d58) >
MathHelper.calcDistance(point3d_0, point3d59)) else point3d59
else:
self.ptC = point3d39
num31 = MathHelper.calcDistance(self.ptC, point3d43)
point3d60 = MathHelper.distanceBearingPoint(
self.ptC,
MathHelper.getBearing(self.ptC, point3d43) +
math.asin(num16 / num31) * num30,
math.sqrt(num31 * num31 - num16 * num16))
point3d6_58 = []
MathHelper.smethod_34(self.ptC, point3d60, point3d1, num1, point3d6_58)
point3d6 = point3d6_58[0]
point3d58 = point3d6_58[1]
point3d6_59 = []
MathHelper.smethod_34(self.ptC, point3d60, point3d2, num2, point3d6_59)
point3d6 = point3d6_59[0]
point3d59 = point3d6_59[1]
self.ptR = point3d58 if (
MathHelper.calcDistance(self.ptC, point3d58) >
MathHelper.calcDistance(self.ptC, point3d59)) else point3d59
def get_outboundLineBottom(self):
return self.outboundLineBottom
OutboundLineBottom = property(get_outboundLineBottom, None, None, None)
def get_outboundLineTop(self):
return self.outboundLineTop
OutboundLineTop = property(get_outboundLineTop, None, None, None)
def method_36_Construct(self, bool_0):
polylines = []
point3d5 = self.parametersPanel.pnlWaypoint.Point3d
value = float(self.parametersPanel.txtTrack.Value)
value1 = float(self.parametersPanel.txtRnpValue.text())
speed = Speed(float(self.parametersPanel.txtIas.text()))
altitude = Altitude(float(self.parametersPanel.txtAltitude.text()),
AltitudeUnits.FT)
num1 = float(self.parametersPanel.txtIsa.text())
value2 = float(self.parametersPanel.txtTime.text())
speed1 = Speed(float(self.parametersPanel.pnlWind.speedBox.text()))
num = 15 if (altitude.Feet >= 24500) else 23
speed2 = Speed.smethod_0(speed, num1, altitude)
metresPerSecond = value2 * 60 * speed2.MetresPerSecond
num2 = math.pow(speed2.Knots + speed1.Knots, 2) / (
34313 * math.tan(Unit.ConvertDegToRad(num))) * 1852
num3 = value1 * 1852
num4 = num2 * (1 - math.sin(Unit.ConvertDegToRad(20))) / (
2 * math.cos(Unit.ConvertDegToRad(20)))
num5 = value1 * 1852 + 3704
if (num5 < 9260):
num5 = 9260
point3d4 = MathHelper.distanceBearingPoint(
point3d5, Unit.ConvertDegToRad(value + 90), num2 /
2) if (self.parametersPanel.cmbOrientation.currentText() !=
OrientationType.Left) else MathHelper.distanceBearingPoint(
point3d5, Unit.ConvertDegToRad(value - 90), num2 / 2)
point3d6 = MathHelper.distanceBearingPoint(point3d4,
Unit.ConvertDegToRad(value),
num4)
point3d7 = MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(value + 180), metresPerSecond)
num6 = num2 / 2 + 1.414 * num3
num7 = num2 / 2 + num3
point3d8 = MathHelper.distanceBearingPoint(point3d6,
Unit.ConvertDegToRad(value),
num6)
point3d9 = MathHelper.distanceBearingPoint(
point3d6,
Unit.ConvertDegToRad(value + 90) - math.acos(num7 / num6), num6)
point3d10 = MathHelper.distanceBearingPoint(
point3d7,
Unit.ConvertDegToRad(value + 90) + math.acos(num7 / num6), num6)
point3d11 = MathHelper.distanceBearingPoint(
point3d7, Unit.ConvertDegToRad(value + 180), num6)
point3d12 = MathHelper.distanceBearingPoint(
point3d7,
Unit.ConvertDegToRad(value - 90) - math.acos(num7 / num6), num6)
point3d13 = MathHelper.distanceBearingPoint(
point3d6,
Unit.ConvertDegToRad(value - 90) + math.acos(num7 / num6), num6)
point3d = MathHelper.getIntersectionPoint(
point3d9,
MathHelper.distanceBearingPoint(
point3d9,
MathHelper.getBearing(point3d6, point3d9) -
Unit.ConvertDegToRad(90), 100), point3d8,
MathHelper.distanceBearingPoint(point3d8,
Unit.ConvertDegToRad(value + 90),
100))
point3d1 = MathHelper.getIntersectionPoint(
point3d10,
MathHelper.distanceBearingPoint(
point3d10,
MathHelper.getBearing(point3d7, point3d10) +
Unit.ConvertDegToRad(90), 100), point3d11,
MathHelper.distanceBearingPoint(point3d11,
Unit.ConvertDegToRad(value + 90),
100))
point3d2 = MathHelper.getIntersectionPoint(
point3d12,
MathHelper.distanceBearingPoint(
point3d12,
MathHelper.getBearing(point3d7, point3d12) -
Unit.ConvertDegToRad(90), 100), point3d11,
MathHelper.distanceBearingPoint(point3d11,
Unit.ConvertDegToRad(value - 90),
100))
point3d3 = MathHelper.getIntersectionPoint(
point3d13,
MathHelper.distanceBearingPoint(
point3d13,
MathHelper.getBearing(point3d6, point3d13) +
Unit.ConvertDegToRad(90), 100), point3d8,
MathHelper.distanceBearingPoint(point3d8,
Unit.ConvertDegToRad(value - 90),
100))
polylines1 = []
polylineArea = None
if (bool_0):
num8 = num2 / 2
point3d14 = MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(value + 90), num8)
point3d15 = MathHelper.distanceBearingPoint(
point3d7, Unit.ConvertDegToRad(value + 90), num8)
point3d16 = MathHelper.distanceBearingPoint(
point3d7, Unit.ConvertDegToRad(value - 90), num8)
point3d17 = MathHelper.distanceBearingPoint(
point3d4, Unit.ConvertDegToRad(value - 90), num8)
point3dArray = [point3d14, point3d15, point3d16, point3d17]
polylineArea = PolylineArea(point3dArray)
polylineArea.method_19(
1, -1
) #MathHelper.smethod_57(TurnDirection.Right, point3d15, point3d16, point3d7))
polylineArea.method_19(
3, -1
) #MathHelper.smethod_57(TurnDirection.Right, point3d17, point3d14, point3d4))
polylines1.append(polylineArea)
point3dArray1 = [point3d9, point3d10, point3d12, point3d13]
polylineArea1 = PolylineArea(point3dArray1)
# for point3d0 in point3dArray1:
# polyline1.Add(point3d0)
polylineArea1.method_19(
1,
MathHelper.smethod_57(TurnDirection.Right, point3d10, point3d12,
point3d7))
polylineArea1.method_19(
3,
MathHelper.smethod_57(TurnDirection.Right, point3d13, point3d9,
point3d6))
# polylineArea1.set_closed(True)
# polyline1.SetDatabaseDefaults();
polylines1.append(polylineArea1)
polylineAreaLineList = [
PolylineArea(
[polylineArea1[0].Position, polylineArea1[1].Position]),
PolylineArea(
[polylineArea1[2].Position, polylineArea1[3].Position])
]
polylineAreaArc0 = PolylineArea()
polylineAreaArc0.Add(polylineArea1[1])
polylineAreaArc0.Add(PolylineAreaPoint(polylineArea1[2].Position))
polylineAreaArc1 = PolylineArea()
polylineAreaArc1.Add(polylineArea1[3])
polylineAreaArc1.Add(PolylineAreaPoint(polylineArea1[0].Position))
polylineAreaArcList = [polylineAreaArc0, polylineAreaArc1]
num9 = num5 / 5
polylineAreaArcListResult = []
polylineAreaLineListResult = []
for i in range(1, 6):
polylineAreaL0 = polylineAreaLineList[0].getOffsetCurveNo(
num9 * i, 4)
polylineAreaLineListResult.append(polylineAreaL0)
polylineAreaA0 = polylineAreaArcList[0].getOffsetCurveNo(
num9 * i, 4)
polylineAreaT = PolylineArea()
polylineAreaT.Add(
PolylineAreaPoint(
polylineAreaA0[0].Position,
MathHelper.smethod_60(
polylineAreaA0[0].Position,
polylineAreaA0[int(len(polylineAreaA0) / 2)].Position,
polylineAreaA0[len(polylineAreaA0) - 1].Position)))
polylineAreaT.Add(
PolylineAreaPoint(polylineAreaA0[len(polylineAreaA0) -
1].Position))
polylineAreaArcListResult.append(polylineAreaT)
polylineAreaL1 = polylineAreaLineList[1].getOffsetCurveNo(
num9 * i, 4)
polylineAreaLineListResult.append(polylineAreaL1)
polylineAreaA1 = polylineAreaArcList[1].getOffsetCurveNo(
num9 * i, 4)
polylineAreaT = PolylineArea()
polylineAreaT.Add(
PolylineAreaPoint(
polylineAreaA1[0].Position,
MathHelper.smethod_60(
polylineAreaA1[0].Position,
polylineAreaA1[int(len(polylineAreaA1) / 2)].Position,
polylineAreaA1[len(polylineAreaA1) - 1].Position)))
polylineAreaT.Add(
PolylineAreaPoint(polylineAreaA1[len(polylineAreaA1) -
1].Position))
polylineAreaArcListResult.append(polylineAreaT)
polylineAreaLineListResult.append(
PolylineArea([
polylineAreaL0[len(polylineAreaL0) - 1].Position,
polylineAreaA0[0].Position
]))
polylineAreaLineListResult.append(
PolylineArea([
polylineAreaA0[len(polylineAreaA0) - 1].Position,
polylineAreaL1[0].Position
]))
polylineAreaLineListResult.append(
PolylineArea([
polylineAreaL1[len(polylineAreaL1) - 1].Position,
polylineAreaA1[0].Position
]))
polylineAreaLineListResult.append(
PolylineArea([
polylineAreaA1[len(polylineAreaA1) - 1].Position,
polylineAreaL0[0].Position
]))
return polylineAreaLineListResult, polylineAreaArcListResult, polylineArea