public void LoadPointsList_(CMInnerApproachSurfaceData InnerApproachSurface, CMCancelledApproachSurfaceData CancelledApproachSurface)
{
mPointsList.Clear();
mPointsList.Add(CMGeoBase.OtstupVPP(Width / 2 + 42 / HeightAngle, 1, CMGeoBase.OtstupVPP(InnerApproachSurface.Offset + InnerApproachSurface.Length, APInf.CRW.TransitionSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse())); //1
mPointsList.Add(CMGeoBase.OtstupVPP(Height / HeightAngle + Width / 2, 1, CMGeoBase.OtstupVPP(InnerApproachSurface.Offset, APInf.CRW.TransitionSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse())); //2
mPointsList.Add(CMGeoBase.OtstupVPP(Height / HeightAngle + Width / 2, 1, CMGeoBase.OtstupVPP(CancelledApproachSurface.Offset, APInf.CRW.TakeoffSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse())); //3
mPointsList.Add(CMGeoBase.OtstupVPP(Width / 2 + CancelledApproachSurface.Height / CancelledApproachSurface.HeightAngle * CancelledApproachSurface.WidthAngle, 1, CMGeoBase.OtstupVPP(3600, APInf.CRW.TakeoffSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse())); //4
mPointsList.Add(CMGeoBase.OtstupVPP(Width / 2 + CancelledApproachSurface.Height / CancelledApproachSurface.HeightAngle * CancelledApproachSurface.WidthAngle, 3, CMGeoBase.OtstupVPP(3600, APInf.CRW.TakeoffSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse()));
mPointsList.Add(CMGeoBase.OtstupVPP(Height / HeightAngle + Width / 2, 3, CMGeoBase.OtstupVPP(CancelledApproachSurface.Offset, APInf.CRW.TakeoffSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse()));
mPointsList.Add(CMGeoBase.OtstupVPP(Height / HeightAngle + Width / 2, 3, CMGeoBase.OtstupVPP(InnerApproachSurface.Offset, APInf.CRW.TransitionSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse()));
mPointsList.Add(CMGeoBase.OtstupVPP(Width / 2 + 42 / HeightAngle, 3, CMGeoBase.OtstupVPP(InnerApproachSurface.Offset + InnerApproachSurface.Length, APInf.CRW.TransitionSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.GetCalcTrueCourse()), APInf.CRW.GetCalcTrueCourse()));
}
public void LoadPointsList(CMInnerApproachSurfaceData InnerApproachSurface, CMCancelledApproachSurfaceData CancelledApproachSurface)
{
mPointsList.Clear();
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, offset3 + offset4), APInf.CRW.RunwayBegin.TrueCourse + 90, (Width / 2 + CancelledApproachSurface.Height / CancelledApproachSurface.HeightAngle * CancelledApproachSurface.WidthAngle)));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, offset3), APInf.CRW.RunwayBegin.TrueCourse + 90, Width2 / 2));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(offset2)), APInf.CRW.RunwayBegin.TrueCourse + 90, Width2 / 2));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(offset2 + Length2)), APInf.CRW.RunwayBegin.TrueCourse + 90, Width2 / 2));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(InnerApproachSurface.Offset + InnerApproachSurface.Length)), APInf.CRW.RunwayBegin.TrueCourse + 90, Width / 2 + 42 / HeightAngle2Calc()));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(InnerApproachSurface.Offset)), APInf.CRW.RunwayBegin.TrueCourse + 90, Height / HeightAngle + Width / 2));
mPointsList.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, (CancelledApproachSurface.Offset)), APInf.CRW.RunwayBegin.TrueCourse + 90, (Height / HeightAngle + Width / 2)));
mPointsList2.Clear();
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, offset3 + offset4), APInf.CRW.RunwayBegin.TrueCourse - 90, (Width / 2 + CancelledApproachSurface.Height / CancelledApproachSurface.HeightAngle * CancelledApproachSurface.WidthAngle)));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, (CancelledApproachSurface.Offset)), APInf.CRW.RunwayBegin.TrueCourse - 90, (Height / HeightAngle + Width / 2)));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(InnerApproachSurface.Offset)), APInf.CRW.RunwayBegin.TrueCourse - 90, Height / HeightAngle + Width / 2));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(InnerApproachSurface.Offset + InnerApproachSurface.Length)), APInf.CRW.RunwayBegin.TrueCourse - 90, Width / 2 + 42 / HeightAngle2Calc()));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(offset2 + Length2)), APInf.CRW.RunwayBegin.TrueCourse - 90, Width2 / 2));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, -(offset2)), APInf.CRW.RunwayBegin.TrueCourse - 90, Width2 / 2));
mPointsList2.Add(CMGeoBase.GetCoordinate(CMGeoBase.GetCoordinate(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayBegin.TrueCourse, offset3), APInf.CRW.RunwayBegin.TrueCourse - 90, Width2 / 2));
}
public CMAPSurfaces()
{
SurfaceA = new CMAPSurfaceA();
SurfaceB = new CMAPSurfaceB();
SurfaceC = new CMAPSurfaceC();
SurfaceOuterHorizontal = new CMAPSurfaceC();
SurfaceD = new CMAPSurfaceD();
SurfaceE = new CMAPSurfaceC();
SurfaceNoiseG = new CMBAPSurfaceNoise(5947.81, 726.22, 61, "Шумовая зона Г");
SurfaceNoiseV = new CMBAPSurfaceNoise(8196.22, 1007.73, 61, "Шумовая зона В");
SurfaceNoiseB = new CMBAPSurfaceNoise(11073.75, 1368.12, 61, "Шумовая зона Б");
APPVP_B = new CMAPPVP();
ApproachSurface = new CMApproachSurfaceData();
TransitionSurface = new CMTransitionSurfaceData();
TakeoffSurface = new CMTakeoffSurfaceData(0.016, "Поверхность взлета");
TakeoffSurfaceInfo = new CMTakeoffSurfaceData(0.012, "Информационная поверхность");
InnerApproachSurface = new CMInnerApproachSurfaceData();
CancelledApproachSurface = new CMCancelledApproachSurfaceData();
InnerTransitionSurface = new CMInnerTransitionSurfaceData();
}
public CMCGPCheckedResult CheckInnerTransitionSurface_(CMCheckedGeoPoint Input, CMInnerApproachSurfaceData InnerApproachSurface, CMCancelledApproachSurfaceData CancelledApproachSurface)
{
CMCGPCheckedResult CheckedResult = new CMCGPCheckedResult();
CheckedResult.SurfaceName = "Внутренняя переходная поверхность";
CheckedResult.PointHeight = Input.Height;
if (CMGeoBase.IsPointInPolygon(mPointsList, Input.Coordinates) || CMGeoBase.IsPointInPolygon(mPointsList2, Input.Coordinates))
{
int misc = CMGeoBase.ZoneChecker(Input.Coordinates, mPointsList);
double length = 0;
double angle = 0;
GeoCoordinate eCoord = new GeoCoordinate(Input.Lat, Input.Lng);
PointLatLng temp1 = new PointLatLng();
switch (misc)
{
case 1:
{
temp1 = CMGeoBase.OtstupVPP(InnerApproachSurface.Offset, APInf.CRW.TransitionSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates);
GeoCoordinate sCoord = new GeoCoordinate(temp1.Lat, temp1.Lng);
length = eCoord.GetDistanceTo(sCoord);
angle = CMGeoBase.Azimut(temp1, Input.Coordinates) - CMGeoBase.Azimut(APInf.CRW.RunwayEnd.Coordinates, APInf.CRW.RunwayBegin.Coordinates);
//aa *= Math.Cos(Math.Abs(angle) * DegToRad);
double length2 = length * Math.Cos(Math.Abs(angle) * CMGeoBase.DegToRad);
double length3 = length * Math.Sin(Math.Abs(angle) * CMGeoBase.DegToRad);
CheckedResult.SurfaceHeight = length2 * InnerApproachSurface.HeightAngle; //основание
double w1 = InnerApproachSurface.Width / 2 * 1000;
double w2 = Math.Abs(length3);
if (w2 > w1)
{
CheckedResult.SurfaceHeight += HeightAngle * (w2 - w1);
}
break;
}
case 2:
{
length = CMGeoBase.GetDistance(Input, 2, APInf.CRW.RunwayBegin, APInf.CRW.RunwayEnd);
if (length > Width / 2)
{
CheckedResult.SurfaceHeight = (length - Width / 2) * HeightAngle;
}
break;
}
case 3:
{
temp1 = CMGeoBase.OtstupVPP(CancelledApproachSurface.Offset, APInf.CRW.TakeoffSurfaceDirection, APInf.CRW.RunwayBegin.Coordinates);
GeoCoordinate sCoord = new GeoCoordinate(temp1.Lat, temp1.Lng);
length = eCoord.GetDistanceTo(sCoord);
angle = CMGeoBase.Azimut(temp1, Input.Coordinates) - CMGeoBase.Azimut(APInf.CRW.RunwayBegin.Coordinates, APInf.CRW.RunwayEnd.Coordinates);
double length2 = length * Math.Cos(Math.Abs(angle) * CMGeoBase.DegToRad);
double length3 = length * Math.Sin(Math.Abs(angle) * CMGeoBase.DegToRad);
CheckedResult.SurfaceHeight = length2 * CancelledApproachSurface.HeightAngle; //основание
//new
double Width1 = 60 + length2 * 0.1;
double Width2 = Math.Abs(length3);
if (Width2 > Width1)
{
CheckedResult.SurfaceHeight += HeightAngle * (Width2 - Width1);
}
break;
}
default: break;
}
//
CheckedResult.SurfaceHeight += APInf.CRW.RunwayBegin.Height;
//
if (CheckedResult.SurfaceHeight <= Input.Height)
{
CheckedResult.IsObstacle = true;
CheckedResult.Exceeding = Input.Height - CheckedResult.SurfaceHeight;
}
CheckedResult.ResultText = string.Format("Попадает во внутреннюю переходную поверхность и {0} превышает высоту{1}", (CheckedResult.IsObstacle ? "" : " не "), (CheckedResult.IsObstacle ? string.Format(" на {0} / {1}", CheckedResult.Exceeding, CheckedResult.SurfaceHeight) : ""));
}
else
{
Visible = false;
}
return(CheckedResult);
}
public CMCGPCheckedResult CheckSurface(CMCheckedGeoPoint Input, CMInnerApproachSurfaceData InnerApproachSurface, CMCancelledApproachSurfaceData CancelledApproachSurface)
{
CMCGPCheckedResult CheckedResult = new CMCGPCheckedResult();
CheckedResult.SurfaceName = "Внутренняя переходная поверхность";
CheckedResult.PointHeight = Input.Height;
List <PointLatLng> temp1 = new List <PointLatLng>();
if (CMGeoBase.IsPointInPolygon(mPointsList, Input.Coordinates))
{
temp1 = mPointsList;
}
else
if (CMGeoBase.IsPointInPolygon(mPointsList2, Input.Coordinates))
{
temp1 = mPointsList2;
}
if (temp1.Count > 0)
{
List <PointLatLng> temp2 = new List <PointLatLng>();
temp2.Clear();
temp2.Add(temp1[0]);
temp2.Add(temp1[1]);
temp2.Add(temp1[6]);
if (CMGeoBase.IsPointInPolygon(temp2, Input.Coordinates))
{
CheckedResult.SurfaceHeight = HeightAngle3 * (Math.Abs(Input.Offset.Lat) - 1800.0) + HeightAngle3Calc() * (Math.Abs(Input.Offset.Lng) - Width2 / 2) + APInf.CRW.RunwayBegin.Height1800;
}
else
{
temp2.Clear();
temp2.Add(temp1[1]);
temp2.Add(temp1[2]);
temp2.Add(temp1[5]);
temp2.Add(temp1[6]);
if (CMGeoBase.IsPointInPolygon(temp2, Input.Coordinates))
{
CheckedResult.SurfaceHeight = HeightAngle * (Math.Abs(Input.Offset.Lng) - Width2 / 2) + APInf.CRW.RunwayBegin.AvgHeight1800;
}
else
{
temp2.Clear();
temp2.Add(temp1[2]);
temp2.Add(temp1[3]);
temp2.Add(temp1[4]);
temp2.Add(temp1[5]);
if (CMGeoBase.IsPointInPolygon(temp2, Input.Coordinates))
{
CheckedResult.SurfaceHeight = HeightAngle2 * (Math.Abs(Input.Offset.Lat) - offset2) + HeightAngle2Calc() * (Math.Abs(Input.Offset.Lng) - Width2 / 2) + APInf.CRW.RunwayBegin.Height;
}
}
}
if (CheckedResult.SurfaceHeight <= Input.Height)
{
CheckedResult.IsObstacle = true;
CheckedResult.Exceeding = Input.Height - CheckedResult.SurfaceHeight;
}
CheckedResult.ResultText = string.Format("Попадает во внутреннюю переходную поверхность и {0} превышает высоту{1}", (CheckedResult.IsObstacle ? "" : " не "), (CheckedResult.IsObstacle ? string.Format(" на {0} / {1}", CheckedResult.Exceeding, CheckedResult.SurfaceHeight) : ""));
}
else
{
Visible = false;
}
return(CheckedResult);
}
