void Update()
{
#if UNITY_EDITOR
FoliageLog.Assert(m_FoliageData != null);
#endif
// Camera used for culling
m_CurrentFrameCameraCull = m_Settings.m_UsedCameraCulling;
// Camera used for drawing
m_CurrentFrameCameraDraw = m_Settings.m_UsedCameraDrawing;
m_CurrentFrameLayer = LayerMask.NameToLayer(m_Settings.m_UsedLayer);
// Extract the planes
ExtractPlanes(m_CameraPlanes, m_CurrentFrameCameraCull.projectionMatrix * m_CurrentFrameCameraCull.worldToCameraMatrix);
// Set the position
m_CurrentFrameCameraPosition = m_CurrentFrameCameraCull.transform.position;
// Set the bend position
m_CurrentFrameBendPosition = m_Settings.m_BendTransform != null ? m_Settings.m_BendTransform.position : m_CurrentFrameCameraPosition;
// Current cell position
currentCell.Set(m_CurrentFrameCameraPosition);
m_CurrentFrameAllowIndirect = m_Settings.m_AllowDrawInstancedIndirect;
m_DrawStats.Reset();
// Copy the wind for SpeedTree types
for (int i = 0; i < m_FoliageTypesArray.Length; i++)
{
if (m_FoliageTypesArray[i].IsSpeedTreeType)
{
m_FoliageTypesArray[i].CopyBlock();
}
}
bool applyShadowCorrection = m_Settings.m_ApplyShadowPoppingCorrection;
float shadowCorrectionDistanceSqr = m_Settings.m_ShadowPoppingCorrection * m_Settings.m_ShadowPoppingCorrection;
// We iterate only as many cells as we need
FoliageCell.IterateNeighboring(currentCell, m_CellNeighborCount, (int hash) =>
{
FoliageCellDataRuntime data;
if (m_FoliageData.m_FoliageData.TryGetValue(hash, out data))
{
// If it is within distance and in the frustum
float distanceSqr = data.m_Bounds.SqrDistance(m_CurrentFrameCameraPosition);
// Check for the maximum distance
if (distanceSqr <= m_MaxDistanceAllSqr && GeometryUtility.TestPlanesAABB(m_CameraPlanes, data.m_Bounds))
{
// Process the big cells if we are withing the tree distance
if (distanceSqr <= m_MaxDistanceTreeSqr)
{
ProcessCellTree(data, distanceSqr, applyShadowCorrection, shadowCorrectionDistanceSqr, false);
}
// Process subdivided cells only if we have instancing enabled and only if it is within the distance proximity for grass
if (distanceSqr <= m_MaxDistanceGrassSqr && m_Settings.m_DrawInstanced)
{
ProcessCellGrass(data);
}
m_DrawStats.m_ProcessedCells++;
}
else if (distanceSqr <= shadowCorrectionDistanceSqr)
{
ProcessCellTree(data, distanceSqr, applyShadowCorrection, shadowCorrectionDistanceSqr, true);
}
}
});
#if UNITY_EDITOR
if (Time.frameCount % 300 == 0)
{
FoliageLog.i(string.Format("Proc cells:{0} Proc subdiv cells: {1} Proc tree instances: {2} Proc draw calls: {3}",
m_DrawStats.m_ProcessedCells,
m_DrawStats.m_ProcessedCellsSubdiv,
m_DrawStats.m_ProcessedInstances,
m_DrawStats.m_ProcessedDrawCalls));
}
#endif
}
private void Update()
{
if (!m_Settings.m_WatchedTransform)
{
return;
}
m_CameraPosTemp = m_Settings.m_WatchedTransform.position;
float x = m_CameraPosTemp.x - m_LastPosition.x;
float y = m_CameraPosTemp.y - m_LastPosition.y;
float z = m_CameraPosTemp.z - m_LastPosition.z;
float distWalked = x * x + y * y + z * z;
// If we didn't walked enough, return
if (distWalked > m_Settings.m_CollisionRefreshDistance * m_Settings.m_CollisionRefreshDistance)
{
// Update last position
m_LastPosition = m_CameraPosTemp;
m_Layer = LayerMask.NameToLayer(m_Settings.m_UsedLayer);
// Reset counter
m_DataIssuedActiveColliders = 0;
// Reset all the cache's data
foreach (CollisionCache cache in m_Cache.Values)
{
if (cache != null)
{
cache.Reset();
}
}
// Set the current cell
currentCell.Set(m_LastPosition);
// Refresh eveything
float collDistSqr = m_Settings.m_CollisionDistance * m_Settings.m_CollisionDistance;
// Iterate cells
FoliageCell.IterateNeighboring(currentCell, 1, (int hash) =>
{
FoliageCellDataRuntime data;
if (m_FoliageData.m_FoliageData.TryGetValue(hash, out data))
{
// If it is within distance and in the frustum
float distanceSqr = data.m_Bounds.SqrDistance(m_LastPosition);
if (distanceSqr <= collDistSqr)
{
ProcessCell(data, collDistSqr);
}
}
});
}
#if UNITY_EDITOR
if (Time.frameCount % 300 == 0)
{
FoliageLog.i("Issued colliders: " + m_DataIssuedActiveColliders);
}
#endif
}
