/// <summary>
/// Read a <see cref="CreateMessage"/> and additional payload.
/// </summary>
/// <param name="reader">Stream to read from</param>
/// <returns>True on success.</returns>
/// <remarks>
/// Read the additional payload to resolve vertex and index counts.
/// </remarks>
public override bool ReadCreate(BinaryReader reader)
{
if (!base.ReadCreate(reader))
{
return(false);
}
UInt32 vertexCount;
UInt32 indexCount;
byte drawType;
vertexCount = reader.ReadUInt32();
indexCount = reader.ReadUInt32();
drawType = reader.ReadByte();
DrawType = (MeshDrawType)drawType;
if (_vertices == null || _vertices.Length != vertexCount)
{
_vertices = new Vector3[vertexCount];
}
if (_indices == null || _indices.Length != indexCount)
{
_indices = null;
if (indexCount > 0)
{
_indices = new int[indexCount];
}
}
_normals = null;
return(true);
}
/// <summary>
/// Handle triangle count.
/// </summary>
/// <param name="obj"></param>
/// <param name="msg"></param>
/// <param name="packet"></param>
/// <param name="reader"></param>
/// <returns></returns>
protected override Error PostHandleMessage(CreateMessage msg, PacketBuffer packet, BinaryReader reader,
ShapeCache cache, int shapeIndex)
{
int vertexCount = reader.ReadInt32();
int indexCount = reader.ReadInt32();
MeshDrawType drawType = (MeshDrawType)reader.ReadByte();
RenderMesh mesh = new RenderMesh(drawType, vertexCount, indexCount);
MeshEntry meshEntry = new MeshEntry
{
Mesh = mesh,
CalculateNormals = (msg.Flags & (ushort)MeshShapeFlag.CalculateNormals) != 0,
DrawScale = 0.0f
};
if (packet.Header.VersionMajor == 0 && packet.Header.VersionMinor == 1)
{
// Legacy handling.
meshEntry.DrawScale = 0.0f;
}
else
{
meshEntry.DrawScale = reader.ReadSingle();
}
cache.SetShapeDataByIndex(shapeIndex, meshEntry);
if (meshEntry.CalculateNormals)
{
_toCalculateNormals.Add(mesh);
}
return(base.PostHandleMessage(msg, packet, reader, cache, shapeIndex));
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Category to which the shape belongs.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
/// <param name="scale">Local scaling.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, uint id, ushort category, Vector3 position, Quaternion rotation, Vector3 scale)
: base((ushort)Tes.Net.ShapeID.Mesh, id, category)
{
IsComplex = true;
_vertices = vertices;
_indices = indices ?? new int[0];
DrawType = drawType;
Position = position;
Rotation = rotation;
Scale = scale;
}
/// <summary>
/// Create a new mesh resource.
/// </summary>
/// <param name="id">The unique mesh resource ID for this mesh.</param>
/// <param name="drawType">Defines the topology.</param>
/// <param name="components">Identifies the required <see cref="MeshComponentFlag"/>.</param>
public SimpleMesh(uint id, MeshDrawType drawType = MeshDrawType.Triangles,
MeshComponentFlag components = MeshComponentFlag.Vertex | MeshComponentFlag.Index)
{
ID = id;
DrawType = (byte)MeshDrawType.Triangles;
Tint = 0xffffffffu;
Transform = Matrix4.Identity;
Components = components;
_vertices = new List <Vector3>();
if ((components & MeshComponentFlag.Index) == MeshComponentFlag.Index)
{
_indices = new List <int>();
}
CalculateNormals = true;
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
/// <param name="scale">Local scaling.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, uint id, Vector3 position, Quaternion rotation, Vector3 scale)
: base((ushort)Tes.Net.ShapeID.Mesh, id)
{
IsComplex = true;
_vertices = vertices;
_indices = indices ?? new int[0];
DrawType = drawType;
Position = position;
Rotation = rotation;
Scale = scale;
if (drawType == MeshDrawType.Points)
{
ColourByHeight = true;
}
}
/// <summary>
/// Read a <see cref="CreateMessage"/> and additional payload.
/// </summary>
/// <param name="packet">The buffer from which the reader reads.</param>
/// <param name="reader">Stream to read from</param>
/// <returns>True on success.</returns>
/// <remarks>
/// Read the additional payload to resolve vertex and index counts.
/// </remarks>
public override bool ReadCreate(PacketBuffer packet, BinaryReader reader)
{
if (!base.ReadCreate(packet, reader))
{
return(false);
}
UInt32 vertexCount;
UInt32 indexCount;
byte drawType;
vertexCount = reader.ReadUInt32();
indexCount = reader.ReadUInt32();
drawType = reader.ReadByte();
DrawType = (MeshDrawType)drawType;
if (_vertices == null || _vertices.Length != vertexCount)
{
_vertices = new Vector3[vertexCount];
}
if (_indices == null || _indices.Length != indexCount)
{
_indices = null;
if (indexCount > 0)
{
_indices = new int[indexCount];
}
}
_normals = null;
if (packet.Header.VersionMajor != 0 || packet.Header.VersionMajor == 0 && packet.Header.VersionMinor >= 2)
{
_drawWeight = reader.ReadSingle();
}
else
{
// Legacy support
_drawWeight = 0;
}
return(true);
}
/// <summary>
/// Converts <paramref name="drawType"/> to the equivalent Unity <c>Topology</c>.
/// </summary>
/// <param name="drawType">The Tes topology.</param>
/// <returns>The equivalent Unity <c>Topology</c></returns>
/// <exception cref="NotImplementedException">Thrown when <paramref name="drawType"/> is
/// not supported by the Unity implementation.</exception>
public static MeshTopology DrawTypeToTopology(MeshDrawType drawType)
{
switch (drawType)
{
case MeshDrawType.Points:
// No break.
case MeshDrawType.Voxels:
return(MeshTopology.Points);
case MeshDrawType.Lines:
return(MeshTopology.Lines);
case MeshDrawType.Triangles:
return(MeshTopology.Triangles);
default:
break;
}
throw new NotImplementedException("Unsupported draw type.");
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Optional display category for the shape.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, uint id = 0, ushort category = 0)
: this(drawType, vertices, null, id)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Category to which the shape belongs.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
/// <param name="scale">Local scaling.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, uint id, ushort category, Vector3 position, Quaternion rotation, Vector3 scale)
: this(drawType, vertices, null, id, category, position, rotation, scale)
{
}
public RenderMesh(MeshDrawType drawType, int vertexCount, int indexCount = 0)
{
SetVertexCount(vertexCount);
SetIndexCount(indexCount);
_drawType = drawType;
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, Vector3 position, Quaternion rotation)
: this(drawType, vertices, indices, position, rotation, Vector3.One)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, Vector3 position, Quaternion rotation)
: this(drawType, vertices, null, position, rotation)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Category to which the shape belongs.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, uint id = 0, ushort category = 0)
: this(drawType, vertices, indices, id, category, Vector3.Zero, Quaternion.Identity, Vector3.One)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Category to which the shape belongs.</param>
/// <param name="position">Local position.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, uint id, ushort category, Vector3 position)
: this(drawType, vertices, null, id, category, position)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="category">Category to which the shape belongs.</param>
/// <param name="position">Local position.</param>
/// <param name="rotation">Local rotation.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, uint id, ushort category, Vector3 position, Quaternion rotation)
: this(drawType, vertices, indices, id, category, position, rotation, Vector3.One)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="position">Local position.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, uint id, Vector3 position)
: this(drawType, vertices, null, id, position)
{
}
/// <summary>
/// Create a mesh shape.
/// </summary>
/// <param name="drawType">Mesh topology.</param>
/// <param name="vertices">Vertex data.</param>
/// <param name="indices">Index data. Must match topology.</param>
/// <param name="id">The shape ID. Zero for transient shapes.</param>
/// <param name="position">Local position.</param>
public MeshShape(MeshDrawType drawType, Vector3[] vertices, int[] indices, uint id, Vector3 position)
: this(drawType, vertices, indices, id, position, Quaternion.Identity, Vector3.One)
{
}
