public static List <Brep> TrimAllIntersections(List <Brep> regionsToTrim, Brep cutter)
{
List <Brep> trimmedRegions = new List <Brep>();
foreach (Brep region in regionsToTrim)
{
//bool regionsIntersect = Confirm.RegionsIntersect(region, cutter);
List <Brep> splitRegions = Breps.SplitTwoBreps(region, cutter);
if (splitRegions.Count != 0)
{
List <Brep> validRegions = Select.FloorFromCore(splitRegions, cutter);
foreach (Brep trimmedRegion in validRegions)
{
trimmedRegions.Add(trimmedRegion);
}
}
else
{
trimmedRegions.Add(region);
}
}
return(trimmedRegions);
}
public static List <Brep> Rectangularize(ZonePackage zone)
{
var rectangularizedZones = new List <Brep>();
if (Utils.GetLongestCurve(new List <Curve>(Curve.JoinCurves(zone.Region.Curves3D))).SpanCount <= 4)
{
rectangularizedZones.Add(zone.Region);
return(rectangularizedZones);
}
var boundsRect = new CurveBounds(new Rectangle3d(Plane.WorldXY, zone.Region.GetBoundingBox(Plane.WorldXY).Max, zone.Region.GetBoundingBox(Plane.WorldXY).Min).ToNurbsCurve());
var rectRangeX = boundsRect.RangeX;
var rectRangeY = boundsRect.RangeY;
var proportion = rectRangeX > rectRangeY ? rectRangeX / rectRangeY : rectRangeY / rectRangeX;
if (boundsRect.Area < 2.5 * zone.BaseArea && proportion < 2)
{
rectangularizedZones.Add(zone.Region);
return(rectangularizedZones);
}
var allRegionPerimeters = new List <Curve>(Curve.JoinCurves(zone.Region.Curves3D));
var regionBoundary = Utils.GetLongestCurve(allRegionPerimeters).Simplify(CurveSimplifyOptions.All, 0.1, 0.1);
var otherPerimeters = new List <Curve>();
foreach (Curve curve in allRegionPerimeters)
{
if (Utils.EqualWithinTolerance(regionBoundary.GetLength(), curve.GetLength(), 1) == false)
{
otherPerimeters.Add(curve.Simplify(CurveSimplifyOptions.All, 0.1, 0.1));
}
}
Curve primaryCirculationEdge = Select.PrimaryCirculationEdge(zone);
var splitters = new List <Curve>();
//Generate splitting curves based on discontinuities in exterior perimeter curve of zone.
for (int i = 0; i <= regionBoundary.SpanCount; i++)
{
var activePoint = Point3d.Unset;
if (i == regionBoundary.SpanCount)
{
activePoint = regionBoundary.PointAt(regionBoundary.SpanDomain(regionBoundary.SpanCount - 1).Max);
}
else
{
activePoint = regionBoundary.PointAt(regionBoundary.SpanDomain(i).Min);
}
if (Confirm.PointIsCornerPoint(activePoint, zone.Region))
{
//Corner points generate undesirable splitting geometry.
continue;
}
primaryCirculationEdge.ClosestPoint(activePoint, out double t);
var pointOnCirculationEdge = primaryCirculationEdge.PointAt(t);
if (activePoint.DistanceTo(pointOnCirculationEdge) < 0.1)
{
//Active point is coincident with circulation edge and is unusable.
continue;
}
splitters.Add(new LineCurve(activePoint, pointOnCirculationEdge));
}
//Generate splitting curves based on an interior exemptions, if they exist.
if (otherPerimeters.Count > 0)
{
foreach (Curve perimeter in otherPerimeters)
{
var perimeterRegion = Brep.CreatePlanarBreps(perimeter)[0];
var activePoint = Point3d.Unset;
for (int i = 0; i < perimeter.SpanCount; i++)
{
activePoint = perimeter.PointAt(perimeter.SpanDomain(i).Min);
if (!Confirm.PointIsCornerPoint(activePoint, perimeterRegion))
{
//For interior exemptions, corner points are desirable.
continue;
}
primaryCirculationEdge.ClosestPoint(activePoint, out double t);
var pointOnCirculationEdge = primaryCirculationEdge.PointAt(t);
if (activePoint.DistanceTo(pointOnCirculationEdge) < 0.1)
{
//Active point is coincident with circulation edge and is unusable.
continue;
}
splitters.Add(new LineCurve(activePoint, pointOnCirculationEdge));
}
}
}
//Extend splitters to guarantee they traverse region boundary.
for (int i = 0; i < splitters.Count; i++)
{
var extendedSplitter = Curves.ExtendToBounds(regionBoundary, splitters[i]);
splitters[i] = extendedSplitter;
}
//Split region by all splitter curves.
var roomRegions = Breps.SplitByCurves(zone.Region, splitters);
return(roomRegions);
}
