void Awake()
{
// Create random points
int n = seed;
points = new List <Vec3>();
switch (usedGenerator)
{
case Generator.Halton:
for (int i = 0; i < pointNumber; i++)
{
// Random sparse distribution
Vec3 temp = HaltonSequence.Halton2D(n, bases[0], bases[1]);
points.Add(new Vec3(temp.X * boundaries[0] + transform.position.x,
temp.Y * boundaries[1] + transform.position.y,
transform.position.z));
n++;
}
break;
case Generator.Poisson:
RandGen.Init(seed);
poissonGen = new PoissonDisk2D(minimalDistance, boundaries[0], boundaries[1],
maxAttemp);
poissonGen.BuildSample(pointNumber);
foreach (Vec3 point in poissonGen)
{
points.Add(point);
}
break;
default:
throw new NotImplementedException();
}
// Place camera
var cam = Camera.main;
cam.transform.position = new Vector3(boundaries[0] / 2.0f, boundaries[1] / 2.0f, -0.8f * Mathf.Max(boundaries));
}
// Use this for initialization
void Awake()
{
RandGen.Init(seed);
if (dim == Dimension.Two)
{
generator2D = new PoissonDisk2D(minimalDistance, boundaries[0], boundaries[1],
maxAttemp);
}
else
{
generator3D = new PoissonDisk3D(minimalDistance, boundaries[0], boundaries[1], boundaries[2],
maxAttemp);
}
// Place camera
var cam = Camera.main;
cam.transform.position = new Vector3(boundaries[0] / 2.0f, boundaries[1] / 2.0f, -0.8f * Mathf.Max(boundaries));
}
void Start()
{
// BUILDING --- --- BUILDING --- --- BUILDING
System.DateTime previousTime = System.DateTime.Now;
var points = new List <Vec3>();
int n = seed;
RandGen.Init(seed);
switch (usedGenerator)
{
case Generator.Halton:
points = SphereSampler.Halton(pointNumber, seed, bases[0], bases[1]).ToList();
break;
case Generator.Uniform:
for (int i = 0; i < pointNumber; i++)
{
double phi = 2.0 * System.Math.PI * RandGen.NextDouble();
double theta = System.Math.Acos(2.0 * RandGen.NextDouble() - 1.0);
points.Add(Geometry.SphericalToEuclidean(phi, theta));
n++;
}
break;
case Generator.Fibonnaci:
// points = SphereSampler.Fibonnaci(pointNumber, 0.8).ToList();
points = SphereSampler.Fibonnaci(pointNumber).ToList();
break;
case Generator.Poisson:
points = SphereSampler.Poisson(pointNumber, 0.1f).ToList();
Debug.Log(points.Count);
break;
}
System.TimeSpan delta = System.DateTime.Now - previousTime;
Debug.Log(string.Format("BUILDING *** {0} secondes OU {1} milliseconds *** BUILDING",
delta.TotalSeconds, delta.TotalMilliseconds));
Debug.Log("Total generated points: " + points.Count);
if (triangulate)
{
// INIT --- --- INIT --- --- INIT
previousTime = System.DateTime.Now;
sphereMeshUsed = new SphericalMesh <int, int>(points.Select(x => Geometry.StereographicProjection(x)).ToArray(), false);
delta = System.DateTime.Now - previousTime;
Debug.Log("***");
Debug.Log(string.Format("*** INIT *** {0} secondes OU {1} milliseconds *** INIT",
delta.TotalSeconds, delta.TotalMilliseconds));
// TRIANGULATION --- --- TRIANGULATION --- --- TRIANGULATION
previousTime = System.DateTime.Now;
sphereMeshUsed.Construct();
delta = System.DateTime.Now - previousTime;
Debug.Log("***");
Debug.Log(string.Format("*** TRIANGULATION *** {0} secondes OU {1} milliseconds *** TRIANGULATION",
delta.TotalSeconds, delta.TotalMilliseconds));
// // START DEBUGTOOLS
// // START DEBUGTOOLS
// // START DEBUGTOOLS
// var test = radius * sphereMeshUsed.RightMostEdge.Rot.Origin;
// if (triangulationOnSphere)
// {
// test = radius * Geometry.InvStereographicProjection(sphereMeshUsed.RightMostEdge.Rot.Origin);
// }
// var newGo = GameObject.Instantiate(shape);
// newGo.transform.SetParent(transform);
// newGo.transform.position = test.AsVector3();
// newGo.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR = newGo.GetComponent<MeshRenderer>();
// if (meshR != null)
// {
// meshR.materials[0].color = Color.blue;
// }
// var test2 = radius * sphereMeshUsed.RightMostEdge.Destination;
// if (triangulationOnSphere)
// {
// test2 = radius * Geometry.InvStereographicProjection(sphereMeshUsed.RightMostEdge.Destination);
// }
// var newGo2 = GameObject.Instantiate(shape);
// newGo2.transform.SetParent(transform);
// newGo2.transform.position = test2.AsVector3();
// newGo2.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR2 = newGo2.GetComponent<MeshRenderer>();
// if (meshR2 != null)
// {
// meshR2.materials[0].color = Color.red;
// }
// int i = 0;
// foreach (QuadEdge<int> edge in baseEdge.RightEdges())
// {
// var test3 = radius * edge.Destination;
// if (triangulationOnSphere)
// {
// test3 = radius * Geometry.InvStereographicProjection(edge.Destination);
// }
// var newGo3 = GameObject.Instantiate(shape);
// newGo3.transform.SetParent(transform);
// newGo3.transform.position = test3.AsVector3();
// newGo3.transform.localScale = new Vector3(4.0f, 4.0f, 4.0f);
// // Color
// var meshR3 = newGo3.GetComponent<MeshRenderer>();
// if (meshR3 != null)
// {
// meshR3.materials[0].color = Color.yellow;
// }
// if (i >= 0)
// {
// break;
// }
// i++;
// }
// // END DEBUGTOOLS
// // END DEBUGTOOLS
// // END DEBUGTOOLS
// DRAWING --- --- DRAWING --- --- DRAWING
List <Vec3> triangles;
if (triangulationOnSphere)
{
triangles = sphereMeshUsed.Triangles().ForEach(x => Geometry.InvStereographicProjection(x) * radius).ToList();
}
else
{
// Remove first triangles
triangles = sphereMeshUsed.Triangles().ForEach(x => x * radius).ToList();
}
TriangleDrawer.DrawLine(triangles, transform, mat, Color.black, lineScale);
TriangleDrawer.DrawFace(triangles, transform, mat, gradient);
TriangleDrawer.DrawPoints(triangles, transform, shape, Color.red, scale);
// Remove first face (reconstructed hole)
// List<Face<int, int>> faces = sphereMeshUsed.Faces(FaceConfig.Voronoi, radius).Collection().Skip(1).ToList();
List <Face <int, int> > faces = sphereMeshUsed.Faces(FaceConfig.Voronoi, radius).ToList();
// // START DEBUGTOOLS
// // START DEBUGTOOLS
// // START DEBUGTOOLS
// int i = 0;
// foreach (QuadEdge<int> edge in sphereMeshUsed.RightMostEdge.Oprev.Sym.Lnext.Oprev.FaceLeftEdges())
// // foreach (QuadEdge<int> edge in sphereMeshUsed.RightMostEdge.Oprev.Rprev.EdgesFrom())
// {
// var test3 = edge.Destination;
// // test3 = radius * test3;
// // if (triangulationOnSphere)
// // {
// // test3 = radius * Geometry.InvStereographicProjection(edge.Destination);
// // }
// var newGo3 = GameObject.Instantiate(shape);
// newGo3.transform.SetParent(transform);
// newGo3.transform.position = test3.AsVector3();
// newGo3.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR3 = newGo3.GetComponent<MeshRenderer>();
// if (meshR3 != null)
// {
// meshR3.materials[0].color = Color.yellow;
// }
// if (i >= 1)
// {
// // Add fake point created
// break;
// }
// else
// {
// test3 = Geometry.CircumCenter3D(Geometry.InvStereographicProjection(edge.RotSym.Origin),
// Geometry.InvStereographicProjection(edge.RotSym.Destination),
// Geometry.InvStereographicProjection(edge.RotSym.Oprev.Destination));
// Vec3 a = Geometry.InvStereographicProjection(edge.RotSym.Origin);
// Vec3 b = Geometry.InvStereographicProjection(edge.RotSym.Destination);
// Vec3 c = Geometry.InvStereographicProjection(edge.RotSym.Oprev.Destination);
// Debug.Log(a);
// Debug.Log(b);
// Debug.Log(c);
// Vec3 ca = c - a;
// Vec3 ba = b - a;
// Vec3 baca = Vec3.Cross(ba, ca);
// Debug.Log(baca.SquaredMagnitude);
// Debug.Log(test3);
// var newGo31 = GameObject.Instantiate(shape);
// newGo31.transform.SetParent(transform);
// newGo31.transform.position = (radius * Geometry.InvStereographicProjection(edge.RotSym.Origin)).AsVector3();
// newGo31.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR31 = newGo31.GetComponent<MeshRenderer>();
// if (meshR31 != null)
// {
// meshR31.materials[0].color = Color.grey;
// }
// var newGo32 = GameObject.Instantiate(shape);
// newGo32.transform.SetParent(transform);
// newGo32.transform.position = (radius * Geometry.InvStereographicProjection(edge.RotSym.Destination)).AsVector3();
// newGo32.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR32 = newGo32.GetComponent<MeshRenderer>();
// if (meshR32 != null)
// {
// meshR32.materials[0].color = Color.grey;
// }
// var newGo33 = GameObject.Instantiate(shape);
// newGo33.transform.SetParent(transform);
// newGo33.transform.position = (radius * Geometry.InvStereographicProjection(edge.RotSym.Oprev.Destination)).AsVector3();
// newGo33.transform.localScale = new Vector3(1.0f, 1.0f, 1.0f);
// // Color
// var meshR33 = newGo33.GetComponent<MeshRenderer>();
// if (meshR33 != null)
// {
// meshR33.materials[0].color = Color.grey;
// }
// double invDistanceScaled = radius / test3.Magnitude;
// test3 *= invDistanceScaled;
// var newGo34 = GameObject.Instantiate(shape);
// newGo34.transform.SetParent(transform);
// newGo34.transform.position = test3.AsVector3();
// newGo34.transform.localScale = new Vector3(2.0f, 2.0f, 2.0f);
// // Color
// var meshR34 = newGo34.GetComponent<MeshRenderer>();
// if (meshR34 != null)
// {
// meshR34.materials[0].color = Color.green;
// }
// }
// // if (!Geometry.Ccw(edge.Destination, edge.Lprev.Destination, edge.Lprev.Origin))
// // {
// // Debug.Log("FOUND");
// // if (meshR3 != null)
// // {
// // meshR3.materials[0].color = Color.magenta;
// // }
// // }
// i++;
// }
// // END DEBUGTOOLS
// // END DEBUGTOOLS
// // END DEBUGTOOLS
if (triangulationOnSphere)
{
float nbCells = (float)faces.Count;
int indcolor2 = 0;
foreach (Face <int, int> face in faces)
{
var color = gradient.Evaluate(indcolor2 / nbCells);
face.DrawFace(transform, mat, color, scale: radius);
face.DrawLine(transform, mat, Color.white, lineScale, loop: true);
face.DrawPoints(transform, shape, mat, Color.blue, 0.6f * scale);
indcolor2++;
// if (indcolor2 > 11)
// {
// break;
// }
}
}
}
else
{
// DRAWING --- --- DRAWING --- --- DRAWING
points = points.Select(x => x * radius).ToList();
int ptId = 0;
foreach (Vec3 point in points)
{
var newGo = GameObject.Instantiate(shape);
newGo.name = string.Format("Fibonnaci Sphere {0}", ptId.ToString());
newGo.transform.SetParent(transform);
newGo.transform.position = point.AsVector3();
newGo.transform.localScale = new Vector3(scale, scale, scale);
// Color
var meshR = newGo.GetComponent <MeshRenderer>();
if (meshR != null)
{
meshR.materials[0].color = Color.black;
}
ptId++;
}
}
}
