/// <summary>
/// Computes the distance from the point to the segment. The return
/// value is in units of sqrt(lat^2 + long^2) in WGS84 coordinates.
/// </summary>
/// <returns>The distance to the point in units of sqrt(lat^2 + long^2).</returns>
/// <param name="point">Point on Earth.</param>
public double DistanceToPoint(GeoCoordinates point)
{
Vector2 p1 = Endpoint1.ToVector2();
Vector2 p2 = Endpoint2.ToVector2();
if (CrossesMeridianRightOfP1)
{
p2 += new Vector2(360, 0);
Vector2 pointRepr1 = point.ToVector2();
Vector2 pointRepr2 = pointRepr1 + new Vector2(360, 0);
double dist1 = Geometry2d.PointToSegmentDistance(p1, p2, pointRepr1);
double dist2 = Geometry2d.PointToSegmentDistance(p1, p2, pointRepr2);
return(Math.Min(dist1, dist2));
}
else if (CrossesMeridianLeftOfP1)
{
p2 -= new Vector2(360, 0);
Vector2 pointRepr1 = point.ToVector2();
Vector2 pointRepr2 = pointRepr1 - new Vector2(360, 0);
double dist1 = Geometry2d.PointToSegmentDistance(p1, p2, pointRepr1);
double dist2 = Geometry2d.PointToSegmentDistance(p1, p2, pointRepr2);
return(Math.Min(dist1, dist2));
}
else
{
return(Geometry2d.PointToSegmentDistance(p1, p2, point.ToVector2()));
}
}
/// <summary>
/// Tests whether the geo rectangle is within the given distance of the
/// geo segment.
/// </summary>
/// <returns><c>true</c>, if the rectangle contains the segment or one
/// of the rectangle's edges is near the segment, <c>false</c> otherwise.</returns>
/// <param name="segment">A reasonably short segment on the Earth.</param>
/// <param name="rect">A valid geo rectangle to test.</param>
/// <param name="maxDist">Maximum distance from segment.</param>
public static bool RectNearSegment(GeoSegment segment, Rect rect, double maxDist)
{
// (Positive) cases:
// - Segment fully contained within rect
// - At least one edge of rect is within maxDist of segment
if (GeoContains(rect, segment.Endpoint1) && GeoContains(rect, segment.Endpoint2))
{
return(true);
}
Vector2[] corners =
{
new Vector2(rect.xMin, rect.yMin),
new Vector2(rect.xMin, rect.yMax),
new Vector2(rect.xMax, rect.yMax),
new Vector2(rect.xMax, rect.yMin)
};
var rectEdges = corners.ConsecutivePairs();
Vector2 segA = segment.Endpoint1.ToVector2();
Vector2 segB = segment.Endpoint2.ToVector2();;
if (segment.CrossesMeridianLeftOfP1)
{
segB -= new Vector2(360, 0);
if (rect.xMax > 180)
{
// Since this is a valid geo rect, xMin is < 180, so this
// rect crosses the opposite side of the map that the
// segment crosses.
segA += new Vector2(360, 0);
segB += new Vector2(360, 0);
}
}
else if (segment.CrossesMeridianRightOfP1)
{
segB += new Vector2(360, 0);
if (rect.xMin < -180)
{
// Since this is a valid geo rect, xMax is > -180, so this
// rect crosses the opposite side of the map that the
// segment crosses.
segA -= new Vector2(360, 0);
segB -= new Vector2(360, 0);
}
}
return(rectEdges.Any(edge =>
Geometry2d.SegmentsWithinDistance(
segA,
segB,
edge.Item1,
edge.Item2,
maxDist)));
}
public void DistanceToPointForSmallSegmentNotCrossingPrimeMeridian()
{
Vector2 point = new Vector2(1, 1);
Vector2 segA = new Vector2(-1, 0);
Vector2 segB = new Vector2(1, 0);
GeoCoordinates geoPoint = new GeoCoordinates(point.y, point.x);
GeoSegment geoSegment = new GeoSegment(
new GeoCoordinates(segA.y, segA.x),
new GeoCoordinates(segB.y, segB.x));
Assert.Equal(
Geometry2d.PointToSegmentDistance(segA, segB, point),
geoSegment.DistanceToPoint(geoPoint),
6);
}
private BuildingsGenerationParameters MakeGenerationParameters(IViewModel viewModelParameters)
{
var vm = viewModelParameters as BuildingsViewModel;
var seed = vm.SeedString.GetHashCode();
var rng = new Random(seed);
int p1, p2;
double baseSideLength;
if (vm.SelectedSideEndpoint1 < 0 ||
vm.SelectedSideEndpoint2 < 0 ||
vm.SelectedSideEndpoint1 >= vm.PolygonPoints.Count ||
vm.SelectedSideEndpoint2 >= vm.PolygonPoints.Count)
{
p1 = 0;
p2 = vm.PolygonPoints.Count - 1;
baseSideLength = vm.PolygonPoints[p1]
.DistanceTo(vm.PolygonPoints[p2]);
// no specific base side specified, so just take the longest
for (int p = 0; p < vm.PolygonPoints.Count - 1; ++p)
{
var candidateDistance = vm.PolygonPoints[p]
.DistanceTo(vm.PolygonPoints[p + 1]);
if (candidateDistance > baseSideLength)
{
p1 = p;
p2 = p + 1;
baseSideLength = candidateDistance;
}
}
}
else
{
p1 = vm.SelectedSideEndpoint1;
p2 = vm.SelectedSideEndpoint2;
baseSideLength = vm.PolygonPoints[p1]
.DistanceTo(vm.PolygonPoints[p2]);
}
double basementLengthPerUnit = vm.SelectedSideMeters / baseSideLength;
var facadeHeight = Lerp(vm.BuildingMinHeight, vm.BuildingMaxHeight, rng.NextDouble());
var floors = rng.Next(vm.MinNumberOfFloors, vm.MaxNumberOfFloors + 1);
var segmentsOnSelectedWall = rng.Next(vm.MinSelectedWallHorizontalSegments, vm.MaxSelectedWallHorizontalSegments);
var windowsOnSelectedWall = rng.Next(vm.MinWindowsOnSelectedWall, vm.MaxWindowsOnSelectedWall);
windowsOnSelectedWall = (int)Math.Min(windowsOnSelectedWall, segmentsOnSelectedWall);
var roofHeight = Lerp(vm.RoofMinHeight, vm.RoofMaxHeight, rng.NextDouble());
//var roofEdgeOffsetPct = rng.Next(vm.RoofEdgeMinOffsetPct, vm.RoofEdgeMaxOffsetPct);
//for
var assetsViewModel = vm.AssetsViewModel as AssetsViewModel;
IList <Asset> doorsAsset = new List <Asset> {
assetsViewModel.DoorsAssets[vm.SelectedDoorStyleIdx]
};
IList <Asset> windowsAssets;
if (vm.IsSingleStyleWindow)
{
windowsAssets = new List <Asset> {
assetsViewModel.WindowsAssets[vm.SelectedWindowStyleIdx]
}
}
;
else
{
windowsAssets = assetsViewModel.WindowsAssets;
}
var windowAssetTriangleLimit = assetsViewModel.WindowAssetTrianglesLimit;
if (windowAssetTriangleLimit <= 0)
{
windowAssetTriangleLimit = int.MaxValue;
}
var doorAssetTriangleLimit = assetsViewModel.DoorAssetTrianglesLimit;
if (doorAssetTriangleLimit <= 0)
{
doorAssetTriangleLimit = int.MaxValue;
}
IList <Point2d> basementPoints = vm.PolygonPoints.Select(p => new Point2d {
X = p.X, Y = p.Y
}).ToList();
// is given basement counter clockwise
if (Geometry2d.CalcSignedPolygonArea(basementPoints) < 0.0)
{
basementPoints = basementPoints.Reverse().ToList();
var tmp = p1;
p1 = basementPoints.Count - 1 - p2;
p2 = basementPoints.Count - 1 - tmp;
}
basementPoints = Geometry2d.ScaleCenteredPolygon(
Geometry2d.CenterPolygon(basementPoints, out var basementCentroid),
basementLengthPerUnit
);
if (!vm.IsDoorOnSelectedWall)
{
var rndPolygonPoint = rng.Next(vm.PolygonPoints.Count);
p1 = rndPolygonPoint;
p2 = (rndPolygonPoint + 1) % vm.PolygonPoints.Count;
}
// is single style window
return(new BuildingsGenerationParameters
{
// assets groups
BasementExtrudeHeight = facadeHeight,
BasementLengthPerUnit = basementLengthPerUnit,
BasementPoints = basementPoints,
Seed = seed,
RoofStyle = (ProceduralBuildingsGeneration.RoofStyle)vm.RoofStyle,
RoofHeight = roofHeight,
//RoofEdgeOffsetPct = roofEdgeOffsetPct,
FloorsNumber = floors,
IsVerticalWindowSymmetryPreserved = vm.IsVerticalSymmetryPreserved,
AssetsScaleModifier = 10.0,
SelectedWallSegments = segmentsOnSelectedWall,
WindowsToSegmentsFraction = (float)windowsOnSelectedWall / segmentsOnSelectedWall,
WindowsAssets = windowsAssets,
DoorsAssets = doorsAsset,
WindowAssetTrianglesLimit = windowAssetTriangleLimit,
DoorAssetTrianglesLimit = doorAssetTriangleLimit,
DoorWall = new WallIndices(p1, p2),
RandomGenerator = rng,
});
}
