/// <summary>
/// Read and handle the <see cref="MeshCreateMessage"/>.
/// </summary>
/// <param name="reader">Stream to read from.</param>
/// <returns>True on success.</returns>
/// <remarks>
/// Handling is deferred to <see cref="ProcessCreate(MeshCreateMessage)"/> which subclasses
/// should implement.
/// </remarks>
public bool ReadCreate(BinaryReader reader)
{
MeshCreateMessage msg = new MeshCreateMessage();
if (!msg.Read(reader))
{
return(false);
}
return(ProcessCreate(msg));
}
/// <summary>
/// Handles <see cref="MeshCreateMessage"/>
/// </summary>
/// <param name="packet"></param>
/// <param name="reader"></param>
/// <returns></returns>
/// <remarks>
/// Emits <see cref="OnMeshAdded"/>.
/// </remarks>
protected Error CreateMesh(PacketBuffer packet, BinaryReader reader)
{
MeshCreateMessage msg = new MeshCreateMessage();
if (!msg.Read(reader))
{
return(new Error(ErrorCode.MalformedMessage, MeshCreateMessage.MessageID));
}
if (_meshes.ContainsKey(msg.MeshID))
{
return(new Error(ErrorCode.DuplicateShape, msg.MeshID));
}
MeshDetails meshDetails = new MeshDetails();
meshDetails.VertexCount = (int)msg.VertexCount;
meshDetails.IndexCount = (int)msg.IndexCount;
meshDetails.DrawType = msg.DrawType;
switch (msg.DrawType)
{
case (byte)MeshDrawType.Points:
// No break.
case (byte)MeshDrawType.Voxels:
meshDetails.Builder.Topology = MeshTopology.Points;
break;
case (byte)MeshDrawType.Lines:
meshDetails.Builder.Topology = MeshTopology.Lines;
break;
case (byte)MeshDrawType.Triangles:
meshDetails.Builder.Topology = MeshTopology.Triangles;
break;
default:
return(new Error(ErrorCode.UnsupportedFeature, msg.DrawType));
}
meshDetails.ID = msg.MeshID;
meshDetails.LocalPosition = new Vector3(msg.Attributes.X, msg.Attributes.Y, msg.Attributes.Z);
meshDetails.LocalRotation = new Quaternion(msg.Attributes.RotationX, msg.Attributes.RotationY, msg.Attributes.RotationZ, msg.Attributes.RotationW);
meshDetails.LocalScale = new Vector3(msg.Attributes.ScaleX, msg.Attributes.ScaleY, msg.Attributes.ScaleZ);
meshDetails.Tint = ShapeComponent.ConvertColour(msg.Attributes.Colour);
meshDetails.Finalised = false;
_meshes.Add(meshDetails.ID, meshDetails);
NotifyMeshAdded(meshDetails);
return(new Error());
}
/// <summary>
/// Serialise messages to generate <paramref name="mesh"/>.
/// </summary>
/// <param name="mesh">The mesh of interest.</param>
/// <param name="packet">Packet buffer to compose messages in</param>
/// <param name="writer">Writer to export completed message packets to.</param>
/// <returns></returns>
/// <remarks>
/// Writes:
/// <list type="bullet">
/// <item><see cref="MeshCreateMessage"/></item>
/// <item><see cref="MeshComponentMessage"/> for each component type from
/// <see cref="MeshMessageType"/></item>
/// <item><see cref="MeshFinaliseMessage"/> only when <paramref name="mesh"/> is already
/// finalised.</item>
/// </list>
/// </remarks>
protected Error Serialise(MeshDetails mesh, PacketBuffer packet, BinaryWriter writer)
{
// First write a create message.
MeshCreateMessage msg = new MeshCreateMessage();
packet.Reset((ushort)RoutingID, (ushort)MeshCreateMessage.MessageID);
msg.MeshID = mesh.ID;
msg.VertexCount = (uint)mesh.Builder.VertexCount;
msg.IndexCount = (uint)(mesh.Builder.ExplicitIndices ? mesh.Builder.IndexCount : 0);
msg.DrawType = mesh.DrawType;
msg.Attributes.X = mesh.LocalPosition.x;
msg.Attributes.Y = mesh.LocalPosition.y;
msg.Attributes.Z = mesh.LocalPosition.z;
msg.Attributes.RotationX = mesh.LocalRotation.x;
msg.Attributes.RotationY = mesh.LocalRotation.y;
msg.Attributes.RotationZ = mesh.LocalRotation.z;
msg.Attributes.RotationW = mesh.LocalRotation.w;
msg.Attributes.ScaleX = mesh.LocalScale.x;
msg.Attributes.ScaleY = mesh.LocalScale.y;
msg.Attributes.ScaleZ = mesh.LocalScale.z;
msg.Attributes.Colour = ShapeComponent.ConvertColour(mesh.Tint);
msg.Write(packet);
if (!packet.FinalisePacket())
{
return(new Error(ErrorCode.SerialisationFailure));
}
packet.ExportTo(writer);
// Now use the MeshResource methods to complete serialisation.
MeshSerialiser serialiser = new MeshSerialiser(mesh);
TransferProgress prog = new TransferProgress();
prog.Reset();
while (!prog.Complete)
{
serialiser.Transfer(packet, 0, ref prog);
if (!packet.FinalisePacket())
{
return(new Error(ErrorCode.SerialisationFailure));
}
packet.ExportTo(writer);
}
return(new Error());
}
/// <summary>
/// Send initial mesh creation message.
/// </summary>
/// <param name="packet">Packet to populate with the create message.</param>
/// <returns>Zero on success.</returns>
public int Create(PacketBuffer packet)
{
MeshCreateMessage msg = new MeshCreateMessage();
msg.Attributes.SetFromTransform(Transform);
msg.Attributes.Colour = Tint;
msg.MeshID = ID;
msg.VertexCount = VertexCount();
msg.IndexCount = IndexCount();
msg.DrawType = DrawType;
packet.Reset((ushort)RoutingID.Mesh, MeshCreateMessage.MessageID);
msg.Write(packet);
return(0);
}
/// <summary>
/// Handles <see cref="MeshCreateMessage"/>
/// </summary>
/// <param name="packet"></param>
/// <param name="reader"></param>
/// <returns></returns>
/// <remarks>
/// Emits <see cref="OnMeshAdded"/>.
/// </remarks>
protected Error CreateMesh(PacketBuffer packet, BinaryReader reader)
{
MeshCreateMessage msg = new MeshCreateMessage();
if (!msg.Read(reader))
{
return(new Error(ErrorCode.MalformedMessage, MeshCreateMessage.MessageID));
}
if (_meshes.ContainsKey(msg.MeshID))
{
return(new Error(ErrorCode.DuplicateShape, msg.MeshID));
}
if (msg.DrawType < 0 || msg.DrawType > Enum.GetValues(typeof(MeshDrawType)).Length)
{
return(new Error(ErrorCode.UnsupportedFeature, msg.DrawType));
}
MeshDetails meshEntry = new MeshDetails();
RenderMesh renderMesh = new RenderMesh((MeshDrawType)msg.DrawType, (int)msg.VertexCount, (int)msg.IndexCount);
meshEntry.Mesh = renderMesh;
meshEntry.ID = msg.MeshID;
meshEntry.LocalPosition = new Vector3(msg.Attributes.X, msg.Attributes.Y, msg.Attributes.Z);
meshEntry.LocalRotation = new Quaternion(msg.Attributes.RotationX, msg.Attributes.RotationY, msg.Attributes.RotationZ, msg.Attributes.RotationW);
meshEntry.LocalScale = new Vector3(msg.Attributes.ScaleX, msg.Attributes.ScaleY, msg.Attributes.ScaleZ);
meshEntry.Tint = Maths.ColourExt.ToUnity32(new Maths.Colour(msg.Attributes.Colour));
meshEntry.Finalised = false;
_meshes.Add(meshEntry.ID, meshEntry);
NotifyMeshAdded(meshEntry);
return(new Error());
}
/// <summary>
/// Process the <see cref="MeshCreateMessage"/>.
/// </summary>
/// <param name="msg">The message to process.</param>
/// <returns>True on success</returns>
/// <remarks>
/// Called from <see cref="ReadCreate(BinaryReader)"/> for subclasses to implement.
/// </remarks>
protected virtual bool ProcessCreate(MeshCreateMessage msg)
{
return(false);
}
/// <summary>
/// Process the <see cref="MeshCreateMessage"/>.
/// </summary>
/// <param name="msg">The message to read.</param>
/// <returns>True on success</returns>
///
protected override bool ProcessCreate(MeshCreateMessage msg)
{
if (ID != msg.MeshID)
{
return(false);
}
// Presize vertex list.
if (_vertices == null)
{
_vertices = new List <Vector3>((int)msg.VertexCount);
}
if (_vertices.Count < msg.VertexCount)
{
for (int i = _vertices.Count; i < msg.VertexCount; ++i)
{
_vertices.Add(Vector3.Zero);
}
}
else
{
if (msg.VertexCount > 0)
{
while (_vertices.Count > msg.VertexCount)
{
_vertices.RemoveAt(_vertices.Count - 1);
}
}
else
{
_vertices.Clear();
}
}
// Presize index list.
if (_indices == null)
{
_indices = new List <int>((int)msg.IndexCount);
}
if (_indices.Count < msg.IndexCount)
{
for (int i = _indices.Count; i < msg.IndexCount; ++i)
{
_indices.Add(0);
}
}
else
{
if (msg.IndexCount > 0)
{
while (_indices.Count > msg.IndexCount)
{
_indices.RemoveAt(_indices.Count - 1);
}
}
else
{
_indices.Clear();
}
}
_normals = null;
_colours = null;
_uvs = null;
DrawType = msg.DrawType;
Transform = msg.Attributes.GetTransform();
Tint = msg.Attributes.Colour;
return(true);
}
