public static Polyline RegionIntersect(Polyline polyline1, Polyline polyline2)
{
Polyline resultPolyine = new Polyline();
List <double> tempParamA = new List <double>(); //Polyline1 위의 교차점
List <double> tempParamB = new List <double>(); //Polyline1 위의 교차점
Curve polyCurve1 = polyline1.ToNurbsCurve();
Curve polyCurve2 = polyline2.ToNurbsCurve();
List <Curve> tempLocalResult = new List <Curve>();
//mutual intersection
var tempIntersection = Rhino.Geometry.Intersect.Intersection.CurveCurve(polyCurve1, polyCurve2, 0, 0);
if (tempIntersection.Count == 0) //없으면 null..
{
return(resultPolyine);
}
foreach (var i in tempIntersection)
{
tempParamA.Add(i.ParameterA);
tempParamB.Add(i.ParameterB);
}
List <Curve> tempSplittedA = polyCurve1.Split(tempParamA).ToList();
List <Curve> tempSplittedB = polyCurve2.Split(tempParamB).ToList();
//case of Polyline1
foreach (Curve i in tempSplittedA)
{
List <Curve> testCrvSet = i.DuplicateSegments().ToList();
if (testCrvSet.Count == 0)
{
testCrvSet.Add(i);
}
foreach (Curve j in testCrvSet)
{
Point3d testPt = (j.PointAtStart + j.PointAtEnd) / 2;
int decider = (int)polyCurve2.Contains(testPt);
if (decider != 2)
{
tempLocalResult.Add(j);
}
}
}
//case of Polyline2
foreach (Curve i in tempSplittedB)
{
List <Curve> testCrvSet = i.DuplicateSegments().ToList();
if (testCrvSet.Count == 0)
{
testCrvSet.Add(i);
}
foreach (Curve j in testCrvSet)
{
Point3d testPt = (j.PointAtStart + j.PointAtEnd) / 2;
int decider = (int)polyCurve1.Contains(testPt);
if (decider != 2)
{
tempLocalResult.Add(j);
}
}
}
List <Curve> resultList = Curve.JoinCurves(tempLocalResult, 0, true).ToList();
resultList.Sort((a, b) => a.GetArea().CompareTo(b.GetArea()));
if (resultList.Count != 0)
{
resultPolyine = CurveTools.ToPolyline(resultList[0]);
}
return(resultPolyine);
}
public static List <Polyline> RemoveLoop(Polyline looped, bool isCCW)
{
Curve loopedCrv = looped.ToNurbsCurve();
//Search selfX params.
List <double> selfXParams = new List <double>();
var selfIntersect = Intersection.CurveSelf(loopedCrv, 0);
foreach (IntersectionEvent e in selfIntersect)
{
selfXParams.Add(e.ParameterA);
selfXParams.Add(e.ParameterB);
}
//Set trimming intervals.
List <double> trimmingParams = new List <double>();
for (int i = 0; i < looped.Count; i++)
{
trimmingParams.Add(i);
}
trimmingParams.AddRange(selfXParams);
trimmingParams.Sort();
List <Interval> trimmingInterval = new List <Interval>();
int paramCount = trimmingParams.Count;
for (int i = 0; i < paramCount - 1; i++)
{
trimmingInterval.Add(
new Interval(trimmingParams[i], trimmingParams[(paramCount + i + 1) % paramCount]));
}
//Get segments.
List <LineCurve> trimmedSegs = new List <LineCurve>();
foreach (Interval i in trimmingInterval)
{
trimmedSegs.Add(
new LineCurve(looped.PointAt(i.T0), looped.PointAt(i.T1)));
}
//Divide segments into in/out group.
List <LineCurve> innerSegs = new List <LineCurve>();
List <LineCurve> outerSegs = new List <LineCurve>();
foreach (LineCurve i in trimmedSegs)
{
Vector3d toInnerCCW = i.TangentAtStart;
toInnerCCW.Rotate(Math.PI / 2, Vector3d.ZAxis);
Point3d inOutTestPoint = (i.PointAtStart + i.PointAtEnd) / 2 + toInnerCCW;
PointContainment inOutResult = loopedCrv.Contains(inOutTestPoint);
if (inOutResult == PointContainment.Inside)
{
innerSegs.Add(i);
}
else
{
outerSegs.Add(i);
}
}
//Decided output by curve orientation.
List <LineCurve> outputSegs;
if (isCCW)
{
outputSegs = innerSegs;
}
else
{
outputSegs = outerSegs;
}
if (outputSegs.Count > 0)
{
Curve[] outputCrv = Curve.JoinCurves(outputSegs);
return(outputCrv.Select(n => CurveTools.ToPolyline(n)).ToList());
}
return(new List <Polyline>());
}
