public TerrainChunk(Vector2 coord, HeightMapSettings heightMapSettings, MeshSettings meshSettings, LODInfo[] detailLevels, int colliderLODIndex, Transform parent, Transform viewer, Material material)
{
this.coord = coord;
this.detailLevels = detailLevels;
this.colliderLODIndex = colliderLODIndex;
this.heightMapSettings = heightMapSettings;
this.meshSettings = meshSettings;
this.viewer = viewer;
sampleCentre = coord * meshSettings.meshWorldSize / meshSettings.meshScale;
Vector2 position = coord * meshSettings.meshWorldSize;
bounds = new Bounds(position, Vector2.one * meshSettings.meshWorldSize);
meshObject = new GameObject("Terrain Chunk");
meshRenderer = meshObject.AddComponent <MeshRenderer>();
meshFilter = meshObject.AddComponent <MeshFilter>();
meshCollider = meshObject.AddComponent <MeshCollider>();
meshRenderer.material = material;
meshObject.transform.position = new Vector3(position.x, 0, position.y);
meshObject.transform.parent = parent;
SetVisible(false);
lodMeshes = new LODMesh[detailLevels.Length];
for (int i = 0; i < detailLevels.Length; i++)
{
lodMeshes[i] = new LODMesh(detailLevels[i].lod);
lodMeshes[i].updateCallback += UpdateTerrainChunk;
if (i == colliderLODIndex)
{
lodMeshes[i].updateCallback += UpdateCollisionMesh;
}
}
maxViewDst = detailLevels [detailLevels.Length - 1].visibleDstThreshold;
}
public static MeshData GenerateTerrainMesh(float[,] heightMap, MeshSettings meshSettings, int levelOfDetail)
{
int skipIncrement = (levelOfDetail == 0)?1:levelOfDetail * 2;
int numVertsPerLine = meshSettings.numVertsPerLine;
Vector2 topLeft = new Vector2(-1, 1) * meshSettings.meshWorldSize / 2f;
MeshData meshData = new MeshData(numVertsPerLine, skipIncrement, meshSettings.useFlatShading);
int[,] vertexIndicesMap = new int[numVertsPerLine, numVertsPerLine];
int meshVertexIndex = 0;
int outOfMeshVertexIndex = -1;
for (int y = 0; y < numVertsPerLine; y++)
{
for (int x = 0; x < numVertsPerLine; x++)
{
bool isOutOfMeshVertex = y == 0 || y == numVertsPerLine - 1 || x == 0 || x == numVertsPerLine - 1;
bool isSkippedVertex = x > 2 && x < numVertsPerLine - 3 && y > 2 && y < numVertsPerLine - 3 && ((x - 2) % skipIncrement != 0 || (y - 2) % skipIncrement != 0);
if (isOutOfMeshVertex)
{
vertexIndicesMap [x, y] = outOfMeshVertexIndex;
outOfMeshVertexIndex--;
}
else if (!isSkippedVertex)
{
vertexIndicesMap [x, y] = meshVertexIndex;
meshVertexIndex++;
}
}
}
for (int y = 0; y < numVertsPerLine; y++)
{
for (int x = 0; x < numVertsPerLine; x++)
{
bool isSkippedVertex = x > 2 && x < numVertsPerLine - 3 && y > 2 && y < numVertsPerLine - 3 && ((x - 2) % skipIncrement != 0 || (y - 2) % skipIncrement != 0);
if (!isSkippedVertex)
{
bool isOutOfMeshVertex = y == 0 || y == numVertsPerLine - 1 || x == 0 || x == numVertsPerLine - 1;
bool isMeshEdgeVertex = (y == 1 || y == numVertsPerLine - 2 || x == 1 || x == numVertsPerLine - 2) && !isOutOfMeshVertex;
bool isMainVertex = (x - 2) % skipIncrement == 0 && (y - 2) % skipIncrement == 0 && !isOutOfMeshVertex && !isMeshEdgeVertex;
bool isEdgeConnectionVertex = (y == 2 || y == numVertsPerLine - 3 || x == 2 || x == numVertsPerLine - 3) && !isOutOfMeshVertex && !isMeshEdgeVertex && !isMainVertex;
int vertexIndex = vertexIndicesMap [x, y];
Vector2 percent = new Vector2(x - 1, y - 1) / (numVertsPerLine - 3);
Vector2 vertexPosition2D = topLeft + new Vector2(percent.x, -percent.y) * meshSettings.meshWorldSize;
float height = heightMap [x, y];
if (isEdgeConnectionVertex)
{
bool isVertical = x == 2 || x == numVertsPerLine - 3;
int dstToMainVertexA = ((isVertical)?y - 2:x - 2) % skipIncrement;
int dstToMainVertexB = skipIncrement - dstToMainVertexA;
float dstPercentFromAToB = dstToMainVertexA / (float)skipIncrement;
float heightMainVertexA = heightMap [(isVertical) ? x : x - dstToMainVertexA, (isVertical) ? y - dstToMainVertexA : y];
float heightMainVertexB = heightMap [(isVertical) ? x : x + dstToMainVertexB, (isVertical) ? y + dstToMainVertexB : y];
height = heightMainVertexA * (1 - dstPercentFromAToB) + heightMainVertexB * dstPercentFromAToB;
}
meshData.AddVertex(new Vector3(vertexPosition2D.x, height, vertexPosition2D.y), percent, vertexIndex);
bool createTriangle = x < numVertsPerLine - 1 && y < numVertsPerLine - 1 && (!isEdgeConnectionVertex || (x != 2 && y != 2));
if (createTriangle)
{
int currentIncrement = (isMainVertex && x != numVertsPerLine - 3 && y != numVertsPerLine - 3) ? skipIncrement : 1;
int a = vertexIndicesMap [x, y];
int b = vertexIndicesMap [x + currentIncrement, y];
int c = vertexIndicesMap [x, y + currentIncrement];
int d = vertexIndicesMap [x + currentIncrement, y + currentIncrement];
meshData.AddTriangle(a, d, c);
meshData.AddTriangle(d, a, b);
}
}
}
}
meshData.ProcessMesh();
return(meshData);
}
public void RequestMesh(HeightMap heightMap, MeshSettings meshSettings)
{
hasRequestedMesh = true;
ThreadedDataRequester.RequestData(() => MeshGenerator.GenerateTerrainMesh(heightMap.values, meshSettings, lod), OnMeshDataReceived);
}