public List <Tetra> Divide(int n = 0)
{
if (n == 0)
{
return(new List <Tetra>(new Tetra[] { this }));
}
else
{
Vector3 halfa = (PointApex + PointA) / 2.0f;
Vector3 halfb = (PointApex + PointB) / 2.0f;
Vector3 halfc = (PointApex + PointC) / 2.0f;
Vector3 halfab = (PointA + PointB) / 2.0f;
Vector3 halfbc = (PointB + PointC) / 2.0f;
Vector3 halfac = (PointA + PointC) / 2.0f;
Tetra t1 = new Tetra(PointApex, halfa, halfb, halfc);
Tetra t2 = new Tetra(halfa, PointA, halfab, halfac);
Tetra t3 = new Tetra(halfb, halfab, PointB, halfbc);
Tetra t4 = new Tetra(halfc, halfac, halfbc, PointC);
List <Tetra> output = new List <Tetra>();
output.AddRange(t1.Divide(n - 1));
output.AddRange(t2.Divide(n - 1));
output.AddRange(t3.Divide(n - 1));
output.AddRange(t4.Divide(n - 1));
return(output);
}
}
public Sierpinski(int numSubdivisions = 1)
{
int NumTris = (int)Math.Pow(4, numSubdivisions + 1);
VertCount = NumTris;
ColorDataCount = NumTris;
IndiceCount = 3 * NumTris;
Tetra twhole = new Tetra(
new Vector3(0.0f, 0.0f, 1.0f),
new Vector3(0.943f, 0.0f, -0.333f),
new Vector3(-0.471f, 0.816f, -0.333f),
new Vector3(-0.471f, -0.816f, -0.333f));
List <Tetra> allTets = twhole.Divide(numSubdivisions);
int offset = 0;
foreach (Tetra t in allTets)
{
verts.AddRange(t.GetVerts());
indices.AddRange(t.GetIndices(offset * 4));
colors.AddRange(t.GetColorData());
offset++;
}
}