private bool ValidPoint(PathingData outlineData, IntPoint position)
{
long movedDist = 0;
OutlineData.Polygons.MovePointInsideBoundary(position, out (int polyIndex, int pointIndex, IntPoint position)movedPosition, OutlineData.EdgeQuadTrees, OutlineData.PointKDTrees, OutlineData.PointIsInside);
if (movedPosition.polyIndex != -1)
{
movedDist = (position - movedPosition.position).Length();
}
if (outlineData.Polygons.TouchingEdge(position, outlineData.EdgeQuadTrees) ||
outlineData.PointIsInside(position) != QTPolygonsExtensions.InsideState.Outside ||
movedDist <= 200)
{
return(true);
}
return(false);
}
public PathFinder(Polygons outlinePolygons,
long avoidInset,
IntRect?stayInsideBounds = null,
bool useInsideCache = true,
string name = "")
{
this.Name = name;
if (outlinePolygons.Count == 0)
{
return;
}
// Check if the outline is convex and no holes, if it is, don't create pathing data we can move anywhere in this object
if (outlinePolygons.Count == 1)
{
var currentPolygon = outlinePolygons[0];
int pointCount = currentPolygon.Count;
double negativeTurns = 0;
double positiveTurns = 0;
for (int pointIndex = 0; pointIndex < pointCount; pointIndex++)
{
int prevIndex = (pointIndex + pointCount - 1) % pointCount;
int nextIndex = (pointIndex + 1) % pointCount;
IntPoint prevPoint = currentPolygon[prevIndex];
IntPoint currentPoint = currentPolygon[pointIndex];
IntPoint nextPoint = currentPolygon[nextIndex];
double turnAmount = currentPoint.GetTurnAmount(prevPoint, nextPoint);
if (turnAmount < 0)
{
negativeTurns += turnAmount;
}
else
{
positiveTurns += turnAmount;
}
}
if (positiveTurns == 0 || negativeTurns == 0)
{
// all the turns are the same way this thing is convex
IsSimpleConvex = true;
}
}
InsetAmount = avoidInset;
var outsidePolygons = FixWinding(outlinePolygons);
outsidePolygons = Clipper.CleanPolygons(outsidePolygons, InsetAmount / 60);
if (stayInsideBounds != null)
{
var boundary = stayInsideBounds.Value;
outsidePolygons.Add(new Polygon()
{
new IntPoint(boundary.minX, boundary.minY),
new IntPoint(boundary.maxX, boundary.minY),
new IntPoint(boundary.maxX, boundary.maxY),
new IntPoint(boundary.minX, boundary.maxY),
});
outsidePolygons = FixWinding(outsidePolygons);
}
// set it to 1/4 the inset amount
int devisor = 4;
OutlineData = new PathingData(outsidePolygons, Math.Abs(avoidInset / devisor), useInsideCache);
}
