public void CalculateMesh()
{
#if WDEBUG
if (!ThreadWorker.multithreading)
{
Profiler.BeginSample("Calculate Mesh");
}
#endif
//reading data
if (meshWorker.stop)
{
return;
}
int margin = voxeland.meshMargin;
//top and bottom points
int topPoint; int bottomPoint;
voxeland.data.GetTopBottomPoints(rect.Expanded(margin), out topPoint, out bottomPoint, ignoreEmptyColumns: true);
//empty mesh check
if (topPoint == 0)
{
hiWrapper = null; loWrapper = null; grassWrapper = null;
indexToCoord = null;
return; //exit to apply without stopping
}
//creating and filling matrix
Matrix3 <byte> matrix = new Matrix3 <byte>(rect.offset.x - margin, bottomPoint - 1, rect.offset.z - margin, rect.size.x + margin * 2, topPoint - bottomPoint + 2, rect.size.z + margin * 2);
voxeland.data.FillMatrix(matrix);
//calculating verts
if (meshWorker.stop)
{
return;
}
ChunkMesh.Face[] faces; Vector3[] verts;
ChunkMesh.CalculateFaces(out faces, out verts, matrix, margin: margin);
if (faces == null || verts == null || faces.Length == 0)
{
hiWrapper = null; loWrapper = null; return;
}
ChunkMesh.RelaxMesh(faces, verts, iterations: voxeland.relaxIterations, strength: voxeland.relaxStrength);
hiWrapper = ChunkMesh.CalculateMesh(faces, verts, hipoly: true);
loWrapper = ChunkMesh.CalculateMesh(faces, verts, hipoly: false);
//normals
if (meshWorker.stop)
{
return;
}
hiWrapper.normals = ChunkMesh.CalculateNormals(faces, verts, smoothIterations: voxeland.normalsSmooth);
loWrapper.normals = hiWrapper.normals.Truncated(loWrapper.verts.Length);
//types
if (meshWorker.stop)
{
return;
}
int maxChannelsCount;
switch (voxeland.channelEncoding)
{
case Voxeland.ChannelEncoding.MegaSplat: maxChannelsCount = 256; break;
case Voxeland.ChannelEncoding.RTP: maxChannelsCount = 4; break;
default: maxChannelsCount = 24; break;
}
maxChannelsCount = Mathf.Min(maxChannelsCount, voxeland.landTypes.array.Length);
if (voxeland.channelEncoding == Voxeland.ChannelEncoding.Voxeland)
{
float[] chWeights = new float[verts.Length];
hiWrapper.tangents = new Vector4[verts.Length];
for (int ch = 0; ch < maxChannelsCount; ch++)
{
if (!ChunkMesh.IsChannelUsed(faces, ch))
{
continue;
}
ChunkMesh.FillChWeights(faces, verts, ch, ref chWeights);
ChunkMesh.EncodeChWeights(chWeights, ch, ref hiWrapper.tangents);
}
loWrapper.tangents = hiWrapper.tangents.Truncated(loWrapper.verts.Length);
}
else if (voxeland.channelEncoding == Voxeland.ChannelEncoding.MegaSplat)
{
float[] chWeights = new float[verts.Length];
hiWrapper.colors = new Color[verts.Length];
Vector4[] uvs2 = new Vector4[verts.Length];
byte[] topTypes = new byte[verts.Length];
byte[] secTypes = new byte[verts.Length];
float[] topBlends = new float[verts.Length]; //blend value of the top type
float[] secBlends = new float[verts.Length];
ChunkMesh.EncodeMegaSplatFilters(faces, ref hiWrapper.colors);
for (int ch = 0; ch < maxChannelsCount; ch++)
{
if (!ChunkMesh.IsChannelUsed(faces, ch))
{
continue;
}
ChunkMesh.FillChWeights(faces, verts, ch, ref chWeights);
ChunkMesh.FillMegaSplatChTopTypes(chWeights, ch, topTypes, secTypes, topBlends, secBlends);
}
ChunkMesh.EncodeMegaSplatChWeights(topTypes, secTypes, topBlends, secBlends, ref hiWrapper.colors, ref uvs2);
hiWrapper.uvs4 = new List <Vector4> [4];
hiWrapper.uvs4[3] = new List <Vector4>(); //3rd channel
hiWrapper.uvs4[3].AddRange(uvs2);
hiWrapper.uv = new Vector2[hiWrapper.verts.Length];
for (int i = 0; i < hiWrapper.verts.Length; i++)
{
hiWrapper.uv[i] = new Vector2(-hiWrapper.verts[i].x, hiWrapper.verts[i].z);
}
hiWrapper.tangents = new Vector4[hiWrapper.verts.Length];
for (int i = 0; i < hiWrapper.verts.Length; i++)
{
hiWrapper.tangents[i] = new Vector4(0, 1, 0, 1);
}
}
else if (voxeland.channelEncoding == Voxeland.ChannelEncoding.RTP)
{
float[] chWeights = new float[verts.Length];
hiWrapper.colors = new Color[verts.Length];
for (int ch = 0; ch < maxChannelsCount; ch++)
{
if (!ChunkMesh.IsChannelUsed(faces, ch))
{
continue;
}
ChunkMesh.FillChWeights(faces, verts, ch, ref chWeights);
ChunkMesh.EncodeColorChWeights(chWeights, ch, ref hiWrapper.colors);
}
loWrapper.colors = hiWrapper.colors.Truncated(loWrapper.verts.Length);
}
//index to coordinate array
if (meshWorker.stop)
{
return;
}
indexToCoord = ChunkMesh.CalculateIndexToCoord(faces);
//calculating grass
if (meshWorker.stop)
{
return;
}
Matrix2 <byte> grassMatrix = new Matrix2 <byte>(rect);
voxeland.data.FillGrass(grassMatrix);
Matrix2 <ushort> topLevels = new Matrix2 <ushort>(rect);
voxeland.data.FillHeightmap(topLevels);
//offset lo border verts to prevent seams
ChunkMesh.OffsetBorderVerts(loWrapper.verts, loWrapper.normals, rect.size.x, -0.15f);
if (meshWorker.stop)
{
return;
}
grassWrapper = ChunkMesh.CalculateGrassMesh(grassMatrix, topLevels, loWrapper.verts, loWrapper.normals, loWrapper.tris, indexToCoord, voxeland.grassTypes);
#if WDEBUG
if (!ThreadWorker.multithreading)
{
Profiler.EndSample();
}
#endif
}
