public void TestSetTangents()
{
// make sure nothing crashes
m_fbxLayer.SetTangents(FbxLayerElementTangent.Create(m_fbxMesh, ""));
Assert.IsNotNull(m_fbxLayer.GetTangents());
// test null
m_fbxLayer.SetTangents(null);
Assert.IsNull(m_fbxLayer.GetTangents());
// test destroyed
FbxLayerElementTangent tangents = FbxLayerElementTangent.Create(m_fbxMesh, "");
tangents.Dispose();
m_fbxLayer.SetTangents(tangents);
}
protected override FbxScene CreateScene(FbxManager manager)
{
FbxScene scene = base.CreateScene(manager);
// Add normals, binormals, UVs, tangents and vertex colors to the cube
FbxMesh cubeMesh = scene.GetRootNode().GetChild(0).GetMesh();
// Add normals
/// Set the Normals on Layer 0.
FbxLayer fbxLayer = cubeMesh.GetLayer(0 /* default layer */);
if (fbxLayer == null)
{
cubeMesh.CreateLayer();
fbxLayer = cubeMesh.GetLayer(0 /* default layer */);
}
using (var fbxLayerElement = FbxLayerElementNormal.Create(cubeMesh, "Normals"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
// Assign the normal vectors in the same order the control points were defined
FbxVector4[] normals = { normalZPos, normalXPos, normalZNeg, normalXNeg, normalYPos, normalYNeg };
for (int n = 0; n < normals.Length; n++)
{
for (int i = 0; i < 4; i++)
{
fbxElementArray.Add(normals [n]);
}
}
fbxLayer.SetNormals(fbxLayerElement);
}
/// Set the binormals on Layer 0.
using (var fbxLayerElement = FbxLayerElementBinormal.Create(cubeMesh, "Binormals"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < cubeMesh.GetControlPointsCount(); n++)
{
fbxElementArray.Add(new FbxVector4(-1, 0, 1)); // TODO: set to correct values
}
fbxLayer.SetBinormals(fbxLayerElement);
}
/// Set the tangents on Layer 0.
using (var fbxLayerElement = FbxLayerElementTangent.Create(cubeMesh, "Tangents"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < cubeMesh.GetControlPointsCount(); n++)
{
fbxElementArray.Add(new FbxVector4(0, -1, 1)); // TODO: set to correct values
}
fbxLayer.SetTangents(fbxLayerElement);
}
// set the vertex colors
using (var fbxLayerElement = FbxLayerElementVertexColor.Create(cubeMesh, "VertexColors"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
// make each vertex either black or white
for (int n = 0; n < cubeMesh.GetControlPointsCount(); n++)
{
fbxElementArray.Add(new FbxColor(n % 2, n % 2, n % 2));
}
fbxLayer.SetVertexColors(fbxLayerElement);
}
// set the UVs
using (var fbxLayerElement = FbxLayerElementUV.Create(cubeMesh, "UVSet"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByPolygonVertex);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eIndexToDirect);
// set texture coordinates per vertex
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < 8; n++)
{
fbxElementArray.Add(new FbxVector2(n % 2, 1)); // TODO: switch to correct values
}
// For each face index, point to a texture uv
FbxLayerElementArray fbxIndexArray = fbxLayerElement.GetIndexArray();
fbxIndexArray.SetCount(24);
for (int vertIndex = 0; vertIndex < 24; vertIndex++)
{
fbxIndexArray.SetAt(vertIndex, vertIndex % 8); // TODO: switch to correct values
}
fbxLayer.SetUVs(fbxLayerElement, FbxLayerElement.EType.eTextureDiffuse);
}
return(scene);
}
/// <summary>
/// Export the mesh's normals, binormals and tangents using
/// layer 0.
/// </summary>
///
public void ExportNormalsEtc(MeshInfo mesh, FbxMesh fbxMesh)
{
/// Set the Normals on Layer 0.
FbxLayer fbxLayer = fbxMesh.GetLayer(0 /* default layer */);
if (fbxLayer == null)
{
fbxMesh.CreateLayer();
fbxLayer = fbxMesh.GetLayer(0 /* default layer */);
}
using (var fbxLayerElement = FbxLayerElementNormal.Create(fbxMesh, "Normals"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
// TODO: normals for each triangle vertex instead of averaged per control point
//fbxNormalLayer.SetMappingMode (FbxLayerElement.eByPolygonVertex);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < mesh.Normals.Length; n++)
{
fbxElementArray.Add(new FbxVector4(mesh.Normals [n] [0],
mesh.Normals [n] [1],
mesh.Normals [n] [2]));
}
fbxLayer.SetNormals(fbxLayerElement);
}
/// Set the binormals on Layer 0.
using (var fbxLayerElement = FbxLayerElementBinormal.Create(fbxMesh, "Binormals"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
// TODO: normals for each triangle vertex instead of averaged per control point
//fbxBinormalLayer.SetMappingMode (FbxLayerElement.eByPolygonVertex);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < mesh.Binormals.Length; n++)
{
fbxElementArray.Add(new FbxVector4(mesh.Binormals [n] [0],
mesh.Binormals [n] [1],
mesh.Binormals [n] [2]));
}
fbxLayer.SetBinormals(fbxLayerElement);
}
/// Set the tangents on Layer 0.
using (var fbxLayerElement = FbxLayerElementTangent.Create(fbxMesh, "Tangents"))
{
fbxLayerElement.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
// TODO: normals for each triangle vertex instead of averaged per control point
//fbxBinormalLayer.SetMappingMode (FbxLayerElement.eByPolygonVertex);
fbxLayerElement.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
// Add one normal per each vertex face index (3 per triangle)
FbxLayerElementArray fbxElementArray = fbxLayerElement.GetDirectArray();
for (int n = 0; n < mesh.Normals.Length; n++)
{
fbxElementArray.Add(new FbxVector4(mesh.Tangents [n] [0],
mesh.Tangents [n] [1],
mesh.Tangents [n] [2]));
}
fbxLayer.SetTangents(fbxLayerElement);
}
}
// For use only by FbxExportGlobals.
internal static FbxMesh CreateFbxMesh(FbxExportGlobals G, GeometryPool pool, string poolName)
{
FbxMesh fbxMesh = FbxMesh.Create(G.m_manager, poolName);
ExportMesh mesh = new ExportMesh(pool);
int nVerts = mesh.m_pool.m_Vertices.Count;
fbxMesh.InitControlPoints(nVerts);
unsafe
{
fixed(Vector3 *f = mesh.m_pool.m_Vertices.GetBackingArray())
{
Globals.SetControlPoints(fbxMesh, (IntPtr)f);
}
}
List <int> triangles = mesh.m_pool.m_Tris;
// Not available in Unity's wrappers
// fbxMesh.ReservePolygonCount(triangles.Count / 3);
// fbxMesh.ReservePolygonVertexCount(triangles.Count);
for (int i = 0; i < triangles.Count; i += 3)
{
fbxMesh.BeginPolygon(-1 /* Material */, -1 /* Texture */, -1 /* Group */, false /* Legacy */);
fbxMesh.AddPolygon(triangles[i]);
fbxMesh.AddPolygon(triangles[i + 1]);
fbxMesh.AddPolygon(triangles[i + 2]);
fbxMesh.EndPolygon();
}
FbxLayer layer0 = fbxMesh.GetLayer(0);
if (layer0 == null)
{
fbxMesh.CreateLayer();
layer0 = fbxMesh.GetLayer(0);
}
var layerElementNormal = FbxLayerElementNormal.Create(fbxMesh, "normals");
layerElementNormal.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
layerElementNormal.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
CopyToFbx(layerElementNormal.GetDirectArray(), mesh.m_pool.m_Normals);
layer0.SetNormals(layerElementNormal);
var layerElementColor = FbxLayerElementVertexColor.Create(fbxMesh, "color");
layerElementColor.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
layerElementColor.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
CopyToFbx(layerElementColor.GetDirectArray(), mesh.m_linearColor);
layer0.SetVertexColors(layerElementColor);
var layerElementTangent = FbxLayerElementTangent.Create(fbxMesh, "tangents");
layerElementTangent.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
layerElementTangent.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
CopyToFbx(layerElementTangent.GetDirectArray(), mesh.m_pool.m_Tangents);
layer0.SetTangents(layerElementTangent);
// Compute and export binormals since Unity's FBX importer won't import the tangents without
// them, even though they're not used.
var layerElementBinormal = FbxLayerElementBinormal.Create(fbxMesh, "binormals");
layerElementBinormal.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
layerElementBinormal.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
var binormals = mesh.m_pool.m_Tangents
.Select((tan, idx) => {
var b3 = Vector3.Cross(tan, mesh.m_pool.m_Normals[idx]) * tan.w;
return(new Vector4(b3.x, b3.y, b3.z, 1));
})
.ToList();
CopyToFbx(layerElementBinormal.GetDirectArray(), binormals);
layer0.SetBinormals(layerElementBinormal);
var layerElementMaterial = FbxLayerElementMaterial.Create(fbxMesh, "materials");
layerElementMaterial.SetMappingMode(FbxLayerElement.EMappingMode.eAllSame);
layer0.SetMaterials(layerElementMaterial);
// Export everything up to the last uvset containing data
// even if some intermediate uvsets have no data.
// Otherwise Unity will get the uvset numbering wrong on import
List <List <Vector2> > uvSets = DemuxTexcoords(mesh.m_pool);
for (int i = 0; i < uvSets.Count; i++)
{
FbxLayer layerN = fbxMesh.GetLayer(i);
while (layerN == null)
{
fbxMesh.CreateLayer();
layerN = fbxMesh.GetLayer(i);
}
var layerElementUV = FbxLayerElementUV.Create(fbxMesh, String.Format("uv{0}", i));
layerElementUV.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
layerElementUV.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
List <Vector2> uvSet = uvSets[i];
if (uvSet == null)
{
// Do nothing
// Replicates what the old fbx export code did; seems to work fine
}
else
{
Debug.Assert(uvSet.Count == nVerts);
CopyToFbx(layerElementUV.GetDirectArray(), uvSet);
}
layerN.SetUVs(layerElementUV, FbxLayerElement.EType.eTextureDiffuse);
}
return(fbxMesh);
}
protected override FbxMesh GenerateFbx()
{
string meshName = (Souls.meshRoot != null ? Souls.meshRoot.Name : "") + "_Mesh";
FbxMesh mesh = FbxMesh.Create(Scene, meshName);
mesh.InitControlPoints(Souls.mesh.Vertices.Count);
int layerIndex = mesh.CreateLayer();
FbxLayer layer = mesh.GetLayer(layerIndex);
FbxLayerContainer layerContainer = FbxLayerContainer.Create(Scene, meshName + "_LayerContainer");
FbxLayerElementUV uv = FbxLayerElementUV.Create(layerContainer, "Diffuse");
layer.SetUVs(uv);
FbxLayerElementNormal normal = FbxLayerElementNormal.Create(layerContainer, "Normal");
layer.SetNormals(normal);
normal.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
normal.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
FbxLayerElementBinormal binormal = FbxLayerElementBinormal.Create(layerContainer, "Binormal");
layer.SetBinormals(binormal);
FbxLayerElementTangent tangent = FbxLayerElementTangent.Create(layerContainer, "Tangent");
layer.SetTangents(tangent);
tangent.SetReferenceMode(FbxLayerElement.EReferenceMode.eDirect);
tangent.SetMappingMode(FbxLayerElement.EMappingMode.eByControlPoint);
for (int vertexIndex = 0; vertexIndex < Souls.mesh.Vertices.Count; ++vertexIndex)
{
FLVER.Vertex vertex = Souls.mesh.Vertices[vertexIndex];
Vector3 position = vertex.Position;
// this fixes vertex positions since otherwise the model is turned inside out
// and it appears like it holds weapons in the left hand
position.Z = -position.Z;
normal.GetDirectArray().Add(vertex.Normal.ToFbxVector4());
tangent.GetDirectArray().Add(new FbxVector4(vertex.Tangents[0].X, vertex.Tangents[0].Y, vertex.Tangents[0].Z));
Vector2 uvValue = new Vector2(0);
if (vertex.UVs.Count > 0)
{
uvValue.X = vertex.UVs[0].X;
uvValue.Y = vertex.UVs[0].Y;
}
uv.GetDirectArray().Add(uvValue.ToFbxVector2());
mesh.SetControlPointAt(position.ToFbxVector4(), vertexIndex);
}
for (int faceSetIndex = 0; faceSetIndex < Souls.mesh.FaceSets.Count; ++faceSetIndex)
{
FLVER2.FaceSet faceSet = Souls.mesh.FaceSets[faceSetIndex];
if (faceSet.Flags != FLVER2.FaceSet.FSFlags.None)
{
continue;
}
for (int faceStartIndex = 0; faceStartIndex < faceSet.Indices.Count; faceStartIndex += 3)
{
mesh.AddCompletePolygon(
faceSet.Indices[faceStartIndex],
faceSet.Indices[faceStartIndex + 1],
faceSet.Indices[faceStartIndex + 2]
);
//mesh.AddCompletePolygon(
// faceSet.Indices[faceStartIndex + 2],
// faceSet.Indices[faceStartIndex + 1],
// faceSet.Indices[faceStartIndex]
//);
}
}
mesh.BuildMeshEdgeArray();
FbxGeometryConverter converter = new FbxGeometryConverter(Scene.GetFbxManager());
converter.ComputeEdgeSmoothingFromNormals(mesh);
converter.ComputePolygonSmoothingFromEdgeSmoothing(mesh);
return(mesh);
}