void TriangulateCube(int index)
{
Vector3 positon = allCubePoint[index];
CubeData data = CubeData.ToCubeData(datas[index]);
data.orientate = data.orientate.AddOrientate(PreviewOrientate);
Vector3[] cubeVertices = GetCubeVertices(positon, data.orientate);
for (int i = 0; i < 6; i++)
{
CubeOrientate temp = (CubeOrientate)i;
if (i < 4)
{
temp = temp.SubOrientate(PreviewOrientate);
temp = temp.AddOrientate(data.orientate);
}
if (!CheckAdjacent(index, (CubeSurface)temp))
{
TriangulateCubeSurface(cubeVertices, (CubeSurface)i, data);
}
}
}
bool HasCube(CubeCoordinate coordinate)
{
byte cubeData = grid.GetCubeData(coordinate.ToVector3(CubeCoordinate.CoordinateType.cubeWorld));
CubeData data = CubeData.ToCubeData(cubeData);
return(data.HasCube(false));
}
void DataTest()
{
for (int i = 0; i < cubes.Length; i++)
{
Debug.Log(i + ": " + CubeData.ToCubeData(cubes[i]).HasCube);
}
Debug.Log(grid.chunkDatas.ContainsKey(ChunkCoordinate.ToString()));
}
void TriangualteAllCubes(CubeOrientate orientate)
{
GetCurrentCubePoints(orientate);
for (int i = 0; i < datas.Length; i++)
{
CubeData data = CubeData.ToCubeData(datas[i]);
if (data.active)
{
TriangulateCube(i);
}
}
}
void SetDataFromPreviewBox(CubeOrientate orientate)
{
var allPoint = GetCurrentCubePoints(orientate);
for (int i = 0; i < datas.Length; i++)
{
CubeData data = CubeData.ToCubeData(datas[i]);
if (data.active)
{
data.orientate = data.orientate.AddOrientate(orientate);
data.isTransparent = true;
grid.SetCubeData(allPoint[i], data.ToByte());
BuilderAI.pendingPosList.Enqueue(allPoint[i]);
}
}
}
void GetDataFromPreviewBox(CubeOrientate orientate)
{
var allPoint = GetCurrentCubePoints(orientate);
for (int i = 0; i < allPoint.Length; i++)
{
CubeData data = CubeData.ToCubeData(grid.GetCubeData(allPoint[i]));
if (!data.isTransparent && data.active)
{
data.orientate = data.orientate.SubOrientate(orientate);
datas[i] = data.ToByte();
}
else
{
datas[i] = byte.MinValue;
}
}
}
void TriangulateByData()
{
Clear();
for (int y = 0; y < CubeMetrics.CHUNK_WIDTH; y++)
{
for (int z = 0; z < CubeMetrics.CHUNK_WIDTH; z++)
{
for (int x = 0; x < CubeMetrics.CHUNK_WIDTH; x++)
{
byte d = cubes[x + y * CubeMetrics.CHUNK_WIDTH * CubeMetrics.CHUNK_WIDTH + z * CubeMetrics.CHUNK_WIDTH];
CubeData data = CubeData.ToCubeData(d);
if (data.active)
{
CubeCoordinate coordinate = new CubeCoordinate(x, y, z);
TriangulateCube(x, y, z, data);
}
}
}
}
Apply();
}
IEnumerator Building(Vector3 target)
{
Vector3 dir = (target - transform.position).normalized;
dir.y = 0;
transform.forward = dir;
animator.SetTrigger("Build");
ParticleSystem partic = Instantiate(p);
partic.transform.position = target;
partic.Play();
CubeData data = CubeData.ToCubeData(grid.GetCubeData(target));
data.isTransparent = false;
grid.SetCubeData(target, data.ToByte());
SetInfo();
yield return(new WaitForSeconds(0.5f));
}
bool CheckAdjacent(int x, int y, int z, CubeSurface surfaceTo)
{
int minValue = 0;
int maxValue = CubeMetrics.CHUNK_WIDTH - 1;
switch (surfaceTo)
{
case CubeSurface.front:
if (z + 2 > CubeMetrics.CHUNK_WIDTH)
{
return(NeighborChunks[(int)AdjacentDirection.front] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.front].
cubes[CubeMetrics.GetCubeIndexToChunk(x, y, minValue)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y, z + 1)]).HasCube);
case CubeSurface.back:
if (z - 1 < 0)
{
return(NeighborChunks[(int)AdjacentDirection.back] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.back].
cubes[CubeMetrics.GetCubeIndexToChunk(x, y, maxValue)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y, z - 1)]).HasCube);
case CubeSurface.left:
if (x - 1 < 0)
{
return(NeighborChunks[(int)AdjacentDirection.left] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.left].cubes[CubeMetrics.GetCubeIndexToChunk(maxValue, y, z)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x - 1, y, z)]).HasCube);
case CubeSurface.right:
if (x + 2 > CubeMetrics.CHUNK_WIDTH)
{
return(NeighborChunks[(int)AdjacentDirection.right] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.right].cubes[CubeMetrics.GetCubeIndexToChunk(minValue, y, z)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x + 1, y, z)]).HasCube);
case CubeSurface.up:
if (y + 2 > CubeMetrics.CHUNK_WIDTH)
{
return(NeighborChunks[(int)AdjacentDirection.up] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.up].cubes[CubeMetrics.GetCubeIndexToChunk(x, minValue, z)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y + 1, z)]).HasCube);
case CubeSurface.down:
if (y - 1 < 0)
{
return(NeighborChunks[(int)AdjacentDirection.down] &&
CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.down].cubes[CubeMetrics.GetCubeIndexToChunk(x, maxValue, z)]).HasCube);
}
return(CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y - 1, z)]).HasCube);
default:
return(false);
}
}
bool CheckAdjacent(int index, CubeSurface surfaceTo)
{
int tempIndex = index;
int y = tempIndex / (localScale * localScale);
int z = (tempIndex - (y * localScale * localScale)) / localScale;
int x = tempIndex - (y * localScale * localScale) - (z * localScale);
switch (surfaceTo)
{
case CubeSurface.front:
if (z + 1 > 6)
{
return(false);
}
z += 1;
break;
case CubeSurface.back:
if (z - 1 < 0)
{
return(false);
}
z -= 1;
break;
case CubeSurface.left:
if (x - 1 < 0)
{
return(false);
}
x -= 1;
break;
case CubeSurface.right:
if (x + 1 > 6)
{
return(false);
}
x += 1;
break;
case CubeSurface.up:
if (y + 1 > 6)
{
return(false);
}
y += 1;
break;
case CubeSurface.down:
if (y - 1 < 0)
{
return(false);
}
y -= 1;
break;
}
int i = x + y * localScale * localScale + z * localScale;
CubeData data = CubeData.ToCubeData(datas[i]);
return(data.active);
}
//
//bool CheckAdjacent2(int x, int y, int z, CubeSurface surfaceTo)
//{
// int minValue = 0;
// int maxValue = CubeMetrics.CHUNK_WIDTH - 1;
// CubeCoordinate c;
// switch (surfaceTo)
// {
// case CubeSurface.front:
// if (z + 2 > CubeMetrics.CHUNK_WIDTH)
// {
// c = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.front);
// //return grid.chunkDatas.ContainsKey(c.ToString()) &&
// // CubeData.ToCubeData(grid.chunkDatas[c.ToString()][CubeMetrics.GetCubeIndexToChunk(x, y, minValue)]).HasCube;
// //Debug.Log(grid.chunkDatas.ContainsKey(c.ToString()));
// return NeighborChunks[(int)AdjacentDirection.front] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.front].
// cubes[CubeMetrics.GetCubeIndexToChunk(x, y, minValue)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y, z + 1)]).HasCube;
// case CubeSurface.back:
// if (z - 1 < 0)
// {
// return NeighborChunks[(int)AdjacentDirection.back] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.back].
// cubes[CubeMetrics.GetCubeIndexToChunk(x, y, maxValue)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y, z - 1)]).HasCube;
// case CubeSurface.left:
// if (x - 1 < 0)
// {
// return NeighborChunks[(int)AdjacentDirection.left] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.left].cubes[CubeMetrics.GetCubeIndexToChunk(maxValue, y, z)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x - 1, y, z)]).HasCube;
// case CubeSurface.right:
// if (x + 2 > CubeMetrics.CHUNK_WIDTH)
// {
// return NeighborChunks[(int)AdjacentDirection.right] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.right].cubes[CubeMetrics.GetCubeIndexToChunk(minValue, y, z)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x + 1, y, z)]).HasCube;
// case CubeSurface.up:
// if (y + 2 > CubeMetrics.CHUNK_WIDTH)
// {
// return NeighborChunks[(int)AdjacentDirection.up] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.up].cubes[CubeMetrics.GetCubeIndexToChunk(x, minValue, z)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y + 1, z)]).HasCube;
// case CubeSurface.down:
// if (y - 1 < 0)
// {
// return NeighborChunks[(int)AdjacentDirection.down] &&
// CubeData.ToCubeData(NeighborChunks[(int)AdjacentDirection.down].cubes[CubeMetrics.GetCubeIndexToChunk(x, maxValue, z)]).HasCube;
// }
// return CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(x, y - 1, z)]).HasCube;
// default:
// return false;
// }
//}
//考虑未实例化到场景中的chunk, 直接在数据表里核对是否需要隐藏
bool CheckAdjacent(int x, int y, int z, CubeSurface surfaceTo, bool isTransparent)
{
int tempX = x;
int tempY = y;
int tempZ = z;
bool outOfRange = false;
CubeCoordinate coordinate;
switch (surfaceTo)
{
case CubeSurface.front:
outOfRange = z + 2 > CubeMetrics.CHUNK_WIDTH;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.front);
tempZ = outOfRange ? 0 : z + 1;
break;
case CubeSurface.back:
outOfRange = z - 1 < 0;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.back);
tempZ = outOfRange ? CubeMetrics.CHUNK_WIDTH - 1 : z - 1;
break;
case CubeSurface.left:
outOfRange = x - 1 < 0;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.left);
tempX = outOfRange ? CubeMetrics.CHUNK_WIDTH - 1 : x - 1;
break;
case CubeSurface.right:
outOfRange = x + 2 > CubeMetrics.CHUNK_WIDTH;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.right);
tempX = outOfRange ? 0 : x + 1;
break;
case CubeSurface.up:
outOfRange = y + 2 > CubeMetrics.CHUNK_WIDTH;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.up);
tempY = outOfRange ? 0 : y + 1;
break;
case CubeSurface.down:
outOfRange = y - 1 < 0;
coordinate = ChunkCoordinate.GetAdjacentCoordinate(AdjacentDirection.down);
tempY = outOfRange ? CubeMetrics.CHUNK_WIDTH - 1 : y - 1;
break;
default:
coordinate = ChunkCoordinate;
break;
}
try
{
return(outOfRange ?
grid.chunkDatas.ContainsKey(coordinate.ToString()) &&
CubeData.ToCubeData(grid.chunkDatas[coordinate.ToString()][CubeMetrics.GetCubeIndexToChunk(tempX, tempY, tempZ)]).HasCube(isTransparent) :
CubeData.ToCubeData(cubes[CubeMetrics.GetCubeIndexToChunk(tempX, tempY, tempZ)]).HasCube(isTransparent));
}
catch
{
Debug.Log("chunk" + ChunkCoordinate.ToString() + ":Surface" + surfaceTo + "index is error");
return(false);
}
}
