private void GenerateObject(MyProceduralCell cell, MyObjectSeed objectSeed, ref int index, MyRandom random, IMyModule densityFunction)
{
cell.AddObject(objectSeed);
switch (objectSeed.Type)
{
case MyObjectSeedType.Asteroid:
m_asteroidSeedCount++;
break;
case MyObjectSeedType.AsteroidCluster:
objectSeed.Type = MyObjectSeedType.Asteroid;
m_asteroidSeedCount++;
m_tmpClusterBoxes.Add(objectSeed.BoundingVolume);
for (int j = 0; j < OBJECT_MAX_IN_CLUSTER; ++j)
{
var direction = GetRandomDirection(random);
var size = GetClusterObjectSize(random.NextDouble());
var distance = MathHelper.Lerp(OBJECT_MIN_DISTANCE_CLUSTER, OBJECT_MAX_DISTANCE_CLUSTER, random.NextDouble());
var clusterObjectPosition = objectSeed.BoundingVolume.Center + direction * (size + objectSeed.BoundingVolume.HalfExtents.Length() * 2 + distance);
ProfilerShort.Begin("GetValue");
var value = densityFunction.GetValue(clusterObjectPosition.X, clusterObjectPosition.Y, clusterObjectPosition.Z);
ProfilerShort.End();
if (value < OBJECT_DENSITY_CLUSTER) // -1..+1
{
var clusterObjectSeed = new MyObjectSeed(cell, clusterObjectPosition, size);
clusterObjectSeed.Seed = random.Next();
clusterObjectSeed.Index = index++;
clusterObjectSeed.Type = GetClusterSeedType(random.NextDouble());
bool overlaps = false;
foreach (var box in m_tmpClusterBoxes)
{
if (overlaps |= clusterObjectSeed.BoundingVolume.Intersects(box))
{
break;
}
}
if (!overlaps)
{
m_tmpClusterBoxes.Add(clusterObjectSeed.BoundingVolume);
GenerateObject(cell, clusterObjectSeed, ref index, random, densityFunction);
}
}
}
m_tmpClusterBoxes.Clear();
break;
case MyObjectSeedType.EncounterAlone:
case MyObjectSeedType.EncounterSingle:
case MyObjectSeedType.EncounterMulti:
m_encounterSeedCount++;
break;
default:
throw new InvalidBranchException();
break;
}
}
private Vector3D GetRandomDirection(MyRandom random)
{
double phi = random.NextDouble() * 2.0 * Math.PI;
double z = random.NextDouble() * 2.0 - 1.0;
double root = Math.Sqrt(1.0 - z * z);
return new Vector3D(root * Math.Cos(phi), root * Math.Sin(phi), z);
}
private void GenerateObject(MyProceduralCell cell, MyObjectSeed objectSeed, ref int index, MyRandom random, IMyModule densityFunctionFilled, IMyModule densityFunctionRemoved)
{
cell.AddObject(objectSeed);
IMyAsteroidFieldDensityFunction func = objectSeed.UserData as IMyAsteroidFieldDensityFunction;
if (func != null)
{
ChildrenAddDensityFunctionRemoved(func);
}
switch (objectSeed.Type)
{
case MyObjectSeedType.Moon:
break;
case MyObjectSeedType.Planet:
m_tmpClusterBoxes.Add(objectSeed.BoundingVolume);
for (int i = 0; i < MOONS_MAX; ++i)
{
var direction = GetRandomDirection(random);
var size = MathHelper.Lerp(MOON_SIZE_MIN, MOON_SIZE_MAX, random.NextDouble());
var distance = MathHelper.Lerp(MOON_DISTANCE_MIN, MOON_DISTANCE_MAX, random.NextDouble());
var position = objectSeed.BoundingVolume.Center + direction * (size + objectSeed.BoundingVolume.HalfExtents.Length() * 2 + distance);
ProfilerShort.Begin("GetValue");
var value = densityFunctionFilled.GetValue(position.X, position.Y, position.Z);
ProfilerShort.End();
if (value < MOON_DENSITY) // -1..+1
{
var clusterObjectSeed = new MyObjectSeed(cell, position, size);
clusterObjectSeed.Seed = random.Next();
clusterObjectSeed.Type = MyObjectSeedType.Moon;
clusterObjectSeed.Index = index++;
clusterObjectSeed.UserData = new MySphereDensityFunction(position, OBJECT_SEED_RADIUS, OBJECT_SEED_RADIUS);
bool overlaps = false;
foreach (var box in m_tmpClusterBoxes)
{
if (overlaps |= clusterObjectSeed.BoundingVolume.Intersects(box))
{
break;
}
}
if (!overlaps)
{
m_tmpClusterBoxes.Add(clusterObjectSeed.BoundingVolume);
GenerateObject(cell, clusterObjectSeed, ref index, random, densityFunctionFilled, densityFunctionRemoved);
}
}
}
m_tmpClusterBoxes.Clear();
break;
case MyObjectSeedType.Empty:
break;
default:
throw new InvalidBranchException();
break;
}
}