std::shared_ptr<Mesh> FbxParser::CreateMesh(GameObjectPtr node, FbxNode * fbxNode)
{
Mesh::Ptr mesh = Mesh::Create(fbxNode->GetName());
FbxMesh* fbxMesh = static_cast<FbxMesh*>(fbxNode->GetNodeAttribute());
int polygonCount = fbxMesh->GetPolygonCount();
int indicesCount = polygonCount * 3;
mesh->Positions.Data.reserve(indicesCount * 3);
mesh->Indices.Data.reserve(indicesCount);
mesh->Colors.Data.reserve(indicesCount * 3);
for (int i = 0; i < polygonCount; ++i) {
ASSERT(fbxMesh->GetPolygonSize(i) <= 3, "Error: triangulate %s", mesh->GetName());
for (int jj = 0; jj < 3; ++jj) {
int ctrPointIdx = fbxMesh->GetPolygonVertex(i, jj);
// TODO
// Use Triangle Strip instead of triangle list
auto position = fbxMesh->GetControlPointAt(ctrPointIdx);
mesh->Positions.Data.push_back((double*)&position);
int indices = i * 3 + jj;
mesh->Indices.Data.push_back(indices);
auto color = fbxMesh->GetElementVertexColor(ctrPointIdx);
mesh->Colors.Data.push_back((double*)&color);
}
}
mesh->UpdateBuffer();
return mesh;
}
//--------------------------------------------------------------------------
void SaveMesh(FbxNode* pNode, const VeDirectoryPtr& spDest) noexcept
{
Mesh kMesh;
FbxMesh* pMesh = (FbxMesh*)pNode->GetNodeAttribute();
kMesh.m_kName = pNode->GetName();
kMesh.m_stFaces = pMesh->GetPolygonCount();
kMesh.m_stVerts = kMesh.m_stFaces * 3;
kMesh.m_kIndices.resize(kMesh.m_stVerts);
kMesh.m_kPosition.resize(kMesh.m_stVerts);
kMesh.m_kNormals.resize(pMesh->GetElementNormalCount());
for (auto& v : kMesh.m_kNormals)
{
v.resize(kMesh.m_stVerts);
}
kMesh.m_kTexcoords.resize(pMesh->GetElementUVCount());
for (auto& v : kMesh.m_kTexcoords)
{
v.resize(kMesh.m_stVerts);
}
kMesh.m_kColors.resize(pMesh->GetElementVertexColorCount());
for (auto& v : kMesh.m_kColors)
{
v.resize(kMesh.m_stVerts);
}
int element_mat = -1;
for (int i(0); i < pMesh->GetElementMaterialCount(); ++i)
{
FbxGeometryElementMaterial* lMaterialElement = pMesh->GetElementMaterial(i);
if (lMaterialElement->GetMappingMode() == FbxGeometryElement::eByPolygon)
{
element_mat = i;
break;
}
}
if (element_mat >= 0)
{
kMesh.m_kAttributes.resize(kMesh.m_stFaces);
}
FbxVector4* lControlPoints = pMesh->GetControlPoints();
for (int i(0); i < (int)(kMesh.m_stFaces); ++i)
{
int lPolygonSize = pMesh->GetPolygonSize(i);
VE_ASSERT_ALWAYS(lPolygonSize == 3);
for (int j(0); j < lPolygonSize; ++j)
{
uint32_t u32Index = i * 3 + j;
kMesh.m_kIndices[u32Index] = u32Index;
int lControlPointIndex = pMesh->GetPolygonVertex(i, j);
auto& pos = kMesh.m_kPosition[u32Index];
pos.x = (float)lControlPoints[lControlPointIndex][0];
pos.y = (float)lControlPoints[lControlPointIndex][1];
pos.z = (float)lControlPoints[lControlPointIndex][2];
for (int k(0); k < (int)(kMesh.m_kColors.size()); ++k)
{
FbxColor c;
FbxGeometryElementVertexColor* leVtxc = pMesh->GetElementVertexColor(k);
switch (leVtxc->GetMappingMode())
{
default:
break;
case FbxGeometryElement::eByControlPoint:
switch (leVtxc->GetReferenceMode())
{
case FbxGeometryElement::eDirect:
c = leVtxc->GetDirectArray().GetAt(lControlPointIndex);
break;
case FbxGeometryElement::eIndexToDirect:
{
int id = leVtxc->GetIndexArray().GetAt(lControlPointIndex);
c = leVtxc->GetDirectArray().GetAt(id);
}
break;
default:
break; // other reference modes not shown here!
}
break;
case FbxGeometryElement::eByPolygonVertex:
{
switch (leVtxc->GetReferenceMode())
{
case FbxGeometryElement::eDirect:
c = leVtxc->GetDirectArray().GetAt(u32Index);
break;
case FbxGeometryElement::eIndexToDirect:
{
int id = leVtxc->GetIndexArray().GetAt(u32Index);
c = leVtxc->GetDirectArray().GetAt(id);
}
break;
default:
break; // other reference modes not shown here!
}
}
break;
case FbxGeometryElement::eByPolygon: // doesn't make much sense for UVs
case FbxGeometryElement::eAllSame: // doesn't make much sense for UVs
case FbxGeometryElement::eNone: // doesn't make much sense for UVs
break;
}
auto& color = kMesh.m_kColors[k][u32Index];
color.x = (float)c[0];
color.y = (float)c[1];
color.z = (float)c[2];
color.w = (float)c[3];
}
for (int k(0); k < (int)(kMesh.m_kTexcoords.size()); ++k)
{
FbxVector2 uv;
FbxGeometryElementUV* leUV = pMesh->GetElementUV(k);
switch (leUV->GetMappingMode())
{
default:
break;
case FbxGeometryElement::eByControlPoint:
switch (leUV->GetReferenceMode())
{
case FbxGeometryElement::eDirect:
uv = leUV->GetDirectArray().GetAt(lControlPointIndex);
break;
case FbxGeometryElement::eIndexToDirect:
{
int id = leUV->GetIndexArray().GetAt(lControlPointIndex);
uv = leUV->GetDirectArray().GetAt(id);
}
break;
default:
break; // other reference modes not shown here!
}
break;
case FbxGeometryElement::eByPolygonVertex:
{
int lTextureUVIndex = pMesh->GetTextureUVIndex(i, j);
switch (leUV->GetReferenceMode())
{
case FbxGeometryElement::eDirect:
case FbxGeometryElement::eIndexToDirect:
{
uv = leUV->GetDirectArray().GetAt(lTextureUVIndex);
}
break;
default:
break; // other reference modes not shown here!
}
}
break;
case FbxGeometryElement::eByPolygon: // doesn't make much sense for UVs
case FbxGeometryElement::eAllSame: // doesn't make much sense for UVs
case FbxGeometryElement::eNone: // doesn't make much sense for UVs
break;
}
auto& texcoord = kMesh.m_kTexcoords[k][u32Index];
texcoord.x = (float)uv[0];
texcoord.y = (float)uv[1];
}
for (int k(0); k < (int)(kMesh.m_kNormals.size()); ++k)
{
FbxVector4 n;
FbxGeometryElementNormal* leNormal = pMesh->GetElementNormal(k);
if (leNormal->GetMappingMode() == FbxGeometryElement::eByPolygonVertex)
{
switch (leNormal->GetReferenceMode())
{
case FbxGeometryElement::eDirect:
n = leNormal->GetDirectArray().GetAt(u32Index);
break;
case FbxGeometryElement::eIndexToDirect:
{
int id = leNormal->GetIndexArray().GetAt(u32Index);
n = leNormal->GetDirectArray().GetAt(id);
}
break;
default:
break; // other reference modes not shown here!
}
}
auto& normal = kMesh.m_kNormals[k][u32Index];
normal.x = (float)n[0];
normal.y = (float)n[1];
normal.z = (float)n[2];
}
if (element_mat >= 0)
{
FbxGeometryElementMaterial* lMaterialElement = pMesh->GetElementMaterial(element_mat);
FbxSurfaceMaterial* lMaterial = NULL;
int lMatId = -1;
lMaterial = pMesh->GetNode()->GetMaterial(lMaterialElement->GetIndexArray().GetAt(i));
lMatId = lMaterialElement->GetIndexArray().GetAt(i);
kMesh.m_kAttributes[i] = lMatId;
}
}
}
kMesh.Process();
kMesh.Save(spDest);
}
