static protected int RenderersToVolumes(ref Renderer[] renderers, ref ProbeReferenceVolume.Volume cellVolume, ref List <ProbeReferenceVolume.Volume> volumes, ref Dictionary <Scene, int> sceneRefs)
{
int num = 0;
foreach (Renderer r in renderers)
{
var flags = GameObjectUtility.GetStaticEditorFlags(r.gameObject) & StaticEditorFlags.ContributeGI;
bool contributeGI = (flags & StaticEditorFlags.ContributeGI) != 0;
if (!r.enabled || !r.gameObject.activeSelf || !contributeGI)
{
continue;
}
ProbeReferenceVolume.Volume v = ToVolume(r.bounds);
if (ProbeVolumePositioning.OBBIntersect(ref cellVolume, ref v))
{
volumes.Add(v);
TrackSceneRefs(r.gameObject.scene, ref sceneRefs);
num++;
}
}
return(num);
}
public static void SubdivisionAlgorithm(ProbeReferenceVolume.Volume cellVolume, List <ProbeReferenceVolume.Volume> probeVolumes, List <ProbeReferenceVolume.Volume> influenceVolumes, RefTrans refTrans, List <Brick> inBricks, int subdivisionLevel, List <Flags> outFlags)
{
Flags f = new Flags();
for (int i = 0; i < inBricks.Count; i++)
{
ProbeReferenceVolume.Volume brickVolume = ProbeVolumePositioning.CalculateBrickVolume(ref refTrans, inBricks[i]);
// Find the local max from all overlapping probe volumes:
float localMaxSubdiv = 0;
float localMinSubdiv = 0;
bool overlap = false;
foreach (ProbeReferenceVolume.Volume v in probeVolumes)
{
ProbeReferenceVolume.Volume vol = v;
if (ProbeVolumePositioning.OBBIntersect(ref vol, ref brickVolume))
{
overlap = true;
localMaxSubdiv = Mathf.Max(localMaxSubdiv, vol.maxSubdivisionMultiplier);
// Do we use max for min subdiv too?
localMinSubdiv = Mathf.Max(localMinSubdiv, vol.minSubdivisionMultiplier);
}
}
bool belowMaxSubdiv = subdivisionLevel <= ProbeReferenceVolume.instance.GetMaxSubdivision(localMaxSubdiv);
bool belowMinSubdiv = subdivisionLevel <= ProbeReferenceVolume.instance.GetMaxSubdivision(localMinSubdiv);
// Keep bricks that overlap at least one probe volume, and at least one influencer (mesh)
if ((belowMinSubdiv && overlap) || (belowMaxSubdiv && ShouldKeepBrick(probeVolumes, brickVolume) && ShouldKeepBrick(influenceVolumes, brickVolume)))
{
f.subdivide = true;
// Transform into refvol space
brickVolume.Transform(refTrans.refSpaceToWS.inverse);
ProbeReferenceVolume.Volume cellVolumeTrans = new ProbeReferenceVolume.Volume(cellVolume);
cellVolumeTrans.Transform(refTrans.refSpaceToWS.inverse);
cellVolumeTrans.maxSubdivisionMultiplier = localMaxSubdiv;
// Discard parent brick if it extends outside of the cell, to prevent duplicates
var brickVolumeMax = brickVolume.corner + brickVolume.X + brickVolume.Y + brickVolume.Z;
var cellVolumeMax = cellVolumeTrans.corner + cellVolumeTrans.X + cellVolumeTrans.Y + cellVolumeTrans.Z;
f.discard = brickVolumeMax.x > cellVolumeMax.x ||
brickVolumeMax.y > cellVolumeMax.y ||
brickVolumeMax.z > cellVolumeMax.z ||
brickVolume.corner.x < cellVolumeTrans.corner.x ||
brickVolume.corner.y < cellVolumeTrans.corner.y ||
brickVolume.corner.z < cellVolumeTrans.corner.z;
}
else
{
f.discard = true;
f.subdivide = false;
}
outFlags.Add(f);
}
}
// converts a volume into bricks, subdivides the bricks and culls subdivided volumes falling outside the original volume
private void ConvertVolume(Volume cellVolume, List <Volume> subVolumes, SubdivisionDel subdivider, List <Brick> outSortedBricks)
{
Profiler.BeginSample("ConvertVolume");
m_TmpBricks[0].Clear();
Transform(cellVolume, out Volume vol);
// rasterize bricks according to the coarsest grid
Rasterize(vol, m_TmpBricks[0]);
int subDivCount = 0;
// iterative subdivision
while (m_TmpBricks[0].Count > 0 && subDivCount <= GetMaxSubdivision(cellVolume.maxSubdivisionMultiplier))
{
m_TmpBricks[1].Clear();
m_TmpFlags.Clear();
m_TmpFlags.Capacity = Mathf.Max(m_TmpFlags.Capacity, m_TmpBricks[0].Count);
Profiler.BeginSample("Subdivider");
subdivider(m_Transform, subDivCount, m_TmpBricks[0], m_TmpFlags);
Profiler.EndSample();
Debug.Assert(m_TmpBricks[0].Count == m_TmpFlags.Count);
for (int i = 0; i < m_TmpFlags.Count; i++)
{
if (!m_TmpFlags[i].discard)
{
outSortedBricks.Add(m_TmpBricks[0][i]);
}
if (m_TmpFlags[i].subdivide)
{
m_TmpBricks[1].Add(m_TmpBricks[0][i]);
}
}
m_TmpBricks[0].Clear();
if (m_TmpBricks[1].Count > 0)
{
SubdivideBricks(m_TmpBricks[1], m_TmpBricks[0]);
// Cull out of bounds bricks
Profiler.BeginSample("Cull bricks");
for (int i = m_TmpBricks[0].Count - 1; i >= 0; i--)
{
if (!ProbeVolumePositioning.OBBIntersect(ref m_Transform, m_TmpBricks[0][i], ref cellVolume))
{
m_TmpBricks[0].RemoveAt(i);
}
}
Profiler.EndSample();
}
subDivCount++;
}
Profiler.EndSample();
}
internal static bool ShouldKeepBrick(List <ProbeReferenceVolume.Volume> volumes, ProbeReferenceVolume.Volume brick)
{
foreach (ProbeReferenceVolume.Volume v in volumes)
{
ProbeReferenceVolume.Volume vol = v;
if (ProbeVolumePositioning.OBBIntersect(ref vol, ref brick))
{
return(true);
}
}
return(false);
}
static protected void CullVolumes(ref List <ProbeReferenceVolume.Volume> cullees, ref List <ProbeReferenceVolume.Volume> cullers, ref List <ProbeReferenceVolume.Volume> result)
{
foreach (ProbeReferenceVolume.Volume v in cullers)
{
ProbeReferenceVolume.Volume lv = v;
foreach (ProbeReferenceVolume.Volume c in cullees)
{
if (result.Contains(c))
{
continue;
}
ProbeReferenceVolume.Volume lc = c;
if (ProbeVolumePositioning.OBBIntersect(ref lv, ref lc))
{
result.Add(c);
}
}
}
}
static protected int ProbeVolumesToVolumes(ref ProbeVolume[] probeVolumes, ref ProbeReferenceVolume.Volume cellVolume, ref List <ProbeReferenceVolume.Volume> volumes, ref Dictionary <Scene, int> sceneRefs)
{
int num = 0;
foreach (ProbeVolume pv in probeVolumes)
{
if (!pv.isActiveAndEnabled)
{
continue;
}
ProbeReferenceVolume.Volume indicatorVolume = new ProbeReferenceVolume.Volume(Matrix4x4.TRS(pv.transform.position, pv.transform.rotation, pv.GetExtents()), pv.parameters.maxSubdivisionMultiplier, pv.parameters.minSubdivisionMultiplier);
if (ProbeVolumePositioning.OBBIntersect(ref cellVolume, ref indicatorVolume))
{
cellVolume.maxSubdivisionMultiplier = Mathf.Max(cellVolume.maxSubdivisionMultiplier, pv.parameters.maxSubdivisionMultiplier, pv.parameters.minSubdivisionMultiplier);
volumes.Add(indicatorVolume);
TrackSceneRefs(pv.gameObject.scene, ref sceneRefs);
num++;
}
}
return(num);
}
