private void OnEnable()
{
spawner = (VegetationSpawner)target;
if (spawner.terrains != null)
{
hasMissingTerrains = SpawnerBase.HasMissingTerrain(spawner.terrains);
}
seed = serializedObject.FindProperty("seed");
terrains = serializedObject.FindProperty("terrains");
detailResolutionIndex = serializedObject.FindProperty("detailResolutionIndex");
detailResolution = serializedObject.FindProperty("detailResolution");
grassPatchSize = serializedObject.FindProperty("grassPatchSize");
grassPatchSizeIndex = serializedObject.FindProperty("grassPatchSizeIndex");
terrainSettings = serializedObject.FindProperty("terrainSettings");
cellSize = serializedObject.FindProperty("cellSize");
cellDivisions = serializedObject.FindProperty("cellDivisions");
collisionLayerMask = serializedObject.FindProperty("collisionLayerMask");
highPrecisionCollision = serializedObject.FindProperty("highPrecisionCollision");
tempColliders = serializedObject.FindProperty("tempColliders");
waterHeight = serializedObject.FindProperty("waterHeight");
autoRespawnTrees = serializedObject.FindProperty("autoRespawnTrees");
VegetationSpawner.VisualizeCells = VisualizeCellsPersistent;
Undo.undoRedoPerformed += OnUndoRedo;
}
private void SpawnTreeOnTerrain(Terrain terrain, TreeType item)
{
float height, worldHeight, normalizedHeight;
List <TreeInstance> treeInstanceCollection = new List <TreeInstance>(terrain.terrainData.treeInstances);
//Clear all existing instances first, setting the tree instances is additive
for (int i = 0; i < treeInstanceCollection.Count; i++)
{
foreach (TreePrefab prefab in item.prefabs)
{
treeInstanceCollection.RemoveAll(x => x.prototypeIndex == prefab.index);
}
}
if (item.enabled)
{
InitializeSeed(item.seed);
//Speed up, only recalculate spawn points if distance was altered, or if there are none at all
if (item.prevDistance > item.distance || item.prevDistance < item.distance || item.spawnPoints.Count == 0)
{
item.prevDistance = item.distance;
item.spawnPoints = PoissonDisc.GetSpawnpoints(terrain, item.distance, item.seed + seed);
}
foreach (Vector3 pos in item.spawnPoints)
{
//InitializeSeed(item.seed + index);
//Relative position as 0-1 value
Vector2 normalizedPos = terrain.GetNormalizedPosition(pos);
InitializeSeed(item.seed + (int)pos.x * (int)pos.z);
//Skip if failing global probability check
if (((Random.value * 100f) <= item.probability) == false)
{
continue;
}
if (item.collisionCheck)
{
//Check for collision
if (InsideOccupiedCell(terrain, pos, normalizedPos))
{
continue;
}
}
TreePrefab prefab = SpawnerBase.GetProbableTree(item);
//Failed probability checks entirely
if (prefab == null)
{
continue;
}
terrain.SampleHeight(normalizedPos, out height, out worldHeight, out normalizedHeight);
//Reject if lower than chosen water level
if (item.rejectUnderwater && worldHeight < waterHeight)
{
continue;
}
//Check height
if (worldHeight < item.heightRange.x || worldHeight > item.heightRange.y)
{
continue;
}
if (item.slopeRange.x > 0 || item.slopeRange.y < 90f)
{
float slope = terrain.GetSlope(normalizedPos, false);
//Reject if slope check fails
if (!(slope >= (item.slopeRange.x) && slope <= (item.slopeRange.y)))
{
continue;
}
}
if (item.curvatureRange.x > 0 || item.curvatureRange.y < 1f)
{
float curvature = terrain.SampleConvexity(normalizedPos);
//0=concave, 0.5=flat, 1=convex
curvature = TerrainSampler.ConvexityToCurvature(curvature);
if (curvature < item.curvatureRange.x || curvature > item.curvatureRange.y)
{
continue;
}
}
float spawnChance = 0f;
if (item.layerMasks.Count == 0)
{
spawnChance = 100f;
}
else
{
//Reject based on layer masks
splatmapTexelIndex = terrain.SplatmapTexelIndex(normalizedPos);
}
foreach (TerrainLayerMask layer in item.layerMasks)
{
Texture2D splat = terrain.terrainData.GetAlphamapTexture(GetSplatmapID(layer.layerID));
Color color = splat.GetPixel(splatmapTexelIndex.x, splatmapTexelIndex.y);
int channel = layer.layerID % 4;
float value = SampleChannel(color, channel);
if (value > 0)
{
value = Mathf.Clamp01(value - layer.threshold);
}
value *= 100f;
spawnChance += value;
}
InitializeSeed((int)pos.x * (int)pos.z);
if ((Random.value <= spawnChance) == false)
{
continue;
}
//Passed all conditions, add instance
TreeInstance treeInstance = new TreeInstance();
treeInstance.prototypeIndex = prefab.index;
//Note: Sink amount should be converted to normalized 0-1 height
treeInstance.position = new Vector3(normalizedPos.x, normalizedHeight - (item.sinkAmount / (terrain.terrainData.size.y + 0.01f)), normalizedPos.y);
treeInstance.rotation = Random.Range(0f, 359f) * Mathf.Deg2Rad;
float scale = Random.Range(item.scaleRange.x, item.scaleRange.y);
treeInstance.heightScale = scale;
treeInstance.widthScale = scale;
treeInstance.color = Color.white;
treeInstance.lightmapColor = Color.white;
treeInstanceCollection.Add(treeInstance);
item.instanceCount++;
}
}
#if UNITY_2019_1_OR_NEWER
terrain.terrainData.SetTreeInstances(treeInstanceCollection.ToArray(), false);
#else
terrain.terrainData.treeInstances = treeInstanceCollection.ToArray();
#endif
}