| public abstract GetBlockAt ( int x, int y, int z ) : byte | ||
| x | int | |
| y | int | |
| z | int | |
| Résultat | byte | |
public static void FixPlayerPlacement(ref IMapHandler mh)
{
// Thank you #mcp.
//<_303> [PlayerPos is] on the head
//<_303> corner pointing toward 0,0,0
Vector3d pos = mh.PlayerPos;
//<_303> height of player = [1.8]
int headblock = mh.GetBlockAt((int)pos.X, (int)pos.Y, (int)pos.Z);
switch (headblock)
{
case 0:
case 8:
case 9:
case 10:
case 11:
return;
}
for (int y = (int)mh.ChunkScale.Y - 3; y > 1; y--)
{
int supportblock = mh.GetBlockAt((int)pos.X, y - 3, (int)pos.Z);
if (supportblock != 0)
{
mh.PlayerPos.Y = y;
return;
}
}
}
public byte GetBlock(int x, int y, int z)
{
if (x < 0 || y < 0 || z < 0 || x >= Size.X || y >= Size.Y || z >= Size.Z)
{
return(Map.GetBlockAt(x + (int)(Size.X * Position.X), Utils.Clamp(y, 0, 127), z + (int)(Size.Z * Position.Z)));
//return 0;
}
return(Blocks[x, y, z]);
}
public override void DoBlockLighting(IMapHandler _mh, long X, long Y)
{
int csx = (int)_mh.ChunkScale.X;
int csy = (int)_mh.ChunkScale.Y;
for (int i = 0; i < 15; i++)
{
for (int _x = 0; _x < csx; _x++)
{
for (int _y = 0; _y < csy; _y++)
{
int x = (int)(X * _mh.ChunkScale.X) + _x;
int y = (int)(Y * _mh.ChunkScale.Y) + _y;
for (int z = 0; z < _mh.GetHeightAt(x, y); z++)
{
byte currentBlockLight,currentSkyLight;
_mh.GetLightAt(x, y, z, out currentSkyLight, out currentBlockLight);
byte currentBlock = _mh.GetBlockAt(x, y, z);
Block currentBlockInfo = OpenMinecraft.Blocks.Get(currentBlock);
// SUNLIGHT
currentSkyLight = (byte)(currentSkyLight - currentBlockInfo.Stop - 1);
if (currentBlockInfo.Emit > 0)
currentBlockLight = currentBlockInfo.Emit;
// Get brightest neighbor
if (x < csx - 1 && currentBlockLight < _mh.GetBlockLightAt(x + 1, y, z))
currentBlockLight = _mh.GetBlockLightAt(x + 1, y, z);
if (y < csy - 1 && currentBlockLight < _mh.GetBlockLightAt(x, y + 1, z))
currentBlockLight = _mh.GetBlockLightAt(x, y + 1, z);
if (z < _mh.ChunkScale.Z - 1 && currentBlockLight < _mh.GetBlockLightAt(x, y, z + 1))
currentBlockLight = _mh.GetBlockLightAt(x, y, z + 1);
if (x > 0 && currentBlockLight < _mh.GetBlockLightAt(x - 1, y, z))
currentBlockLight = _mh.GetBlockLightAt(x - 1, y, z);
if (y > 0 && currentBlockLight < _mh.GetBlockLightAt(x, y - 1, z))
currentBlockLight = _mh.GetBlockLightAt(x, y - 1, z);
if (z > 0 && currentBlockLight < _mh.GetBlockLightAt(x, y, z - 1))
currentBlockLight = _mh.GetBlockLightAt(x, y, z - 1);
// Drop 1 level of light + lightstop for current block
currentBlockLight = (byte)(currentBlockLight - 1 - currentBlockInfo.Stop);
if (currentBlockLight < 0) currentBlockLight = 0;
if (currentBlockLight > 15) currentBlockLight = 15;
if (currentSkyLight < 0) currentSkyLight = 0;
if (currentSkyLight > 15) currentSkyLight = 15;
_mh.SetBlockLightAt(x, y, z, currentBlockLight);
_mh.SetSkyLightAt(x, y, z, currentSkyLight);
}
}
}
}
}
private void MakeSphere(Vector3i pos, int rad)
{
Profiler profRead = new Profiler("Read");
Profiler profWrite = new Profiler("Write");
int radsq = rad ^ 2; // So we don't have to do sqrt, which is slow
for (int x = (int)pos.X - rad; x < pos.X + rad; x++)
{
for (int y = (int)pos.Y - rad; y < pos.Y + rad; y++)
{
for (int z = (int)pos.Z - rad; z < pos.Z + rad; z++)
{
if (y < 0 || y >= mMap.ChunkScale.Y - 1)
{
continue;
}
profRead.Start();
byte block = mMap.GetBlockAt(x, y, z);
profRead.Stop();
//byte blockabove = mMap.GetBlockAt(x,y+1,z);
// If water/sand/gravel, or the block above is, abort
if (block == 0 || block == 8 || block == 9 || block == 12 || block == 13 || block == KnownBlocks.Error)
{
continue;
}
//if (blockabove == 0 || blockabove == 8 || blockabove == 9 || blockabove == 12 || blockabove == 13)
// continue;
int distsq = (x - (int)pos.X) ^ 2 + (y - (int)pos.Y) ^ 2 + (z - (int)pos.Z);
if (distsq <= radsq)
{
profWrite.Start();
mMap.SetBlockAt(x, y, z, 0);
profWrite.Stop();
}
}
}
}
Console.WriteLine(profRead.ToString());
Console.WriteLine(profWrite.ToString());
}
public virtual void AddTrees(ref IMapHandler mh, BiomeType[,] biomes, ref Random rand, int X, int Z, int H)
{
int xo = (int)(X * mh.ChunkScale.X);
int zo = (int)(Z * mh.ChunkScale.Z);
List <Vector2i> PlantedTrees = new List <Vector2i>();
int DistanceReqd = 3;
for (int t = 0; t < (int)((HumidityNoise.Noise((double)(xo) / BIOME_SCALE, (double)(zo) / BIOME_SCALE, 0) + HumidityOffset) * 5.0); t++)
{
Vector2i me = new Vector2i(rand.Next(0, 15), rand.Next(0, 15));
if (!Biome.NeedsTrees(biomes[me.X, me.Y]))
{
continue;
}
bool tooclose = false;
foreach (Vector2i tree in PlantedTrees)
{
if (Vector2i.Distance(tree, me) < DistanceReqd)
{
tooclose = true;
break;
}
}
if (tooclose)
{
continue;
}
bool founddert = false;
for (int y = (int)H - 10; y > 0; y--)
{
switch (mh.GetBlockAt(me.X + xo, y, me.Y + zo))
{
case 0: // Air
case 78: // Snow cover
continue;
// case 1: // ROCK
case 2: // GRASS
case 3: // DIRT
//Utils.GrowTree(ref blocks, rand, (int)me.X, (int)y + 1, (int)me.Y);
mh.SetBlockAt(me.X + xo, y + 1, me.Y + zo, 6); // Sapling
mh.SetDataAt(me.X + xo, y + 1, me.Y + zo, 15); // Growth stage 15.
/*
* Tree tree = new NormalTree(me.X + xo, y + 1, me.Y + zo, rand.Next(5, 8));
* tree.MakeTrunk(ref mh);
* tree.MakeFoliage(ref mh);
*/
mh.SaveAll();
founddert = true;
break;
case 11: // SAND
//Utils.GrowCactus(ref b, rand, me.X, y + 1, me.Y);
break;
default:
founddert = true;
break;
}
if (founddert)
{
break;
}
}
PlantedTrees.Add(me);
}
}
public virtual void AddTrees(ref IMapHandler mh, BiomeType[,] biomes, ref Random rand, int X, int Z, int H)
{
int xo = (int)(X * mh.ChunkScale.X);
int zo = (int)(Z * mh.ChunkScale.Z);
List<Vector2i> PlantedTrees = new List<Vector2i>();
int DistanceReqd = 3;
for (int t = 0; t < (int)((HumidityNoise.Noise((double)(xo) / BIOME_SCALE, (double)(zo) / BIOME_SCALE, 0) + HumidityOffset) * 5.0); t++)
{
Vector2i me = new Vector2i(rand.Next(0, 15),rand.Next(0, 15));
if (!Biome.NeedsTrees(biomes[me.X, me.Y]))
continue;
bool tooclose=false;
foreach (Vector2i tree in PlantedTrees)
{
if (Vector2i.Distance(tree, me) < DistanceReqd)
{
tooclose = true;
break;
}
}
if (tooclose) continue;
bool founddert = false;
for (int y = (int)H - 10; y > 0; y--)
{
switch (mh.GetBlockAt(me.X+xo, y, me.Y+zo))
{
case 0: // Air
case 78: // Snow cover
continue;
// case 1: // ROCK
case 2: // GRASS
case 3: // DIRT
//Utils.GrowTree(ref blocks, rand, (int)me.X, (int)y + 1, (int)me.Y);
mh.SetBlockAt(me.X + xo, y + 1, me.Y + zo, 6); // Sapling
mh.SetDataAt(me.X + xo, y + 1, me.Y + zo, 15); // Growth stage 15.
/*
Tree tree = new NormalTree(me.X + xo, y + 1, me.Y + zo, rand.Next(5, 8));
tree.MakeTrunk(ref mh);
tree.MakeFoliage(ref mh);
*/
mh.SaveAll();
founddert = true;
break;
case 11: // SAND
//Utils.GrowCactus(ref b, rand, me.X, y + 1, me.Y);
break;
default:
founddert = true;
break;
}
if (founddert) break;
}
PlantedTrees.Add(me);
}
}
public static void FixPlayerPlacement(ref IMapHandler mh)
{
// Thank you #mcp.
//<_303> [PlayerPos is] on the head
//<_303> corner pointing toward 0,0,0
Vector3d pos = mh.PlayerPos;
//<_303> height of player = [1.8]
int headblock = mh.GetBlockAt((int)pos.X,(int)pos.Y,(int)pos.Z);
switch (headblock)
{
case 0:
case 8:
case 9:
case 10:
case 11:
return;
}
for (int y = (int)mh.ChunkScale.Y - 3; y > 1; y--)
{
int supportblock = mh.GetBlockAt((int)pos.X, y-3, (int)pos.Z);
if (supportblock != 0)
{
mh.PlayerPos.Y = y;
return;
}
}
}
public override void DoBlockLighting(IMapHandler _mh, long X, long Y)
{
int csx = (int)_mh.ChunkScale.X;
int csy = (int)_mh.ChunkScale.Y;
for (int i = 0; i < 15; i++)
{
for (int _x = 0; _x < csx; _x++)
{
for (int _y = 0; _y < csy; _y++)
{
int x = (int)(X * _mh.ChunkScale.X) + _x;
int y = (int)(Y * _mh.ChunkScale.Y) + _y;
for (int z = 0; z < _mh.GetHeightAt(x, y); z++)
{
byte currentBlockLight, currentSkyLight;
_mh.GetLightAt(x, y, z, out currentSkyLight, out currentBlockLight);
byte currentBlock = _mh.GetBlockAt(x, y, z);
Block currentBlockInfo = OpenMinecraft.Blocks.Get(currentBlock);
// SUNLIGHT
currentSkyLight = (byte)(currentSkyLight - currentBlockInfo.Stop - 1);
if (currentBlockInfo.Emit > 0)
{
currentBlockLight = currentBlockInfo.Emit;
}
// Get brightest neighbor
if (x < csx - 1 && currentBlockLight < _mh.GetBlockLightAt(x + 1, y, z))
{
currentBlockLight = _mh.GetBlockLightAt(x + 1, y, z);
}
if (y < csy - 1 && currentBlockLight < _mh.GetBlockLightAt(x, y + 1, z))
{
currentBlockLight = _mh.GetBlockLightAt(x, y + 1, z);
}
if (z < _mh.ChunkScale.Z - 1 && currentBlockLight < _mh.GetBlockLightAt(x, y, z + 1))
{
currentBlockLight = _mh.GetBlockLightAt(x, y, z + 1);
}
if (x > 0 && currentBlockLight < _mh.GetBlockLightAt(x - 1, y, z))
{
currentBlockLight = _mh.GetBlockLightAt(x - 1, y, z);
}
if (y > 0 && currentBlockLight < _mh.GetBlockLightAt(x, y - 1, z))
{
currentBlockLight = _mh.GetBlockLightAt(x, y - 1, z);
}
if (z > 0 && currentBlockLight < _mh.GetBlockLightAt(x, y, z - 1))
{
currentBlockLight = _mh.GetBlockLightAt(x, y, z - 1);
}
// Drop 1 level of light + lightstop for current block
currentBlockLight = (byte)(currentBlockLight - 1 - currentBlockInfo.Stop);
if (currentBlockLight < 0)
{
currentBlockLight = 0;
}
if (currentBlockLight > 15)
{
currentBlockLight = 15;
}
if (currentSkyLight < 0)
{
currentSkyLight = 0;
}
if (currentSkyLight > 15)
{
currentSkyLight = 15;
}
_mh.SetBlockLightAt(x, y, z, currentBlockLight);
_mh.SetSkyLightAt(x, y, z, currentSkyLight);
}
}
}
}
}