// A helper function to calculate face normals. It is included here to illustrate
// how to inspect the coarse mesh, give an HbrMesh pointer.
//
static void
calcNormals(OsdHbrMesh * mesh,
std::vector<float> const & pos,
std::vector<float> & result )
{
//
// Get the number of vertices and faces. Notice the naming convention is
// different between coarse Vertices and Faces. This may change in the
// future (it an artifact of the original renderman code).
//
int nverts = mesh->GetNumVertices();
int nfaces = mesh->GetNumCoarseFaces();
for (int i = 0; i < nfaces; ++i) {
OsdHbrFace * f = mesh->GetFace(i);
float const * p0 = &pos[f->GetVertex(0)->GetID()*3],
* p1 = &pos[f->GetVertex(1)->GetID()*3],
* p2 = &pos[f->GetVertex(2)->GetID()*3];
float n[3];
cross( n, p0, p1, p2 );
for (int j = 0; j < f->GetNumVertices(); j++) {
int idx = f->GetVertex(j)->GetID() * 3;
result[idx ] += n[0];
result[idx+1] += n[1];
result[idx+2] += n[2];
}
}
for (int i = 0; i < nverts; ++i)
normalize(&result[i*3]);
}
//------------------------------------------------------------------------------
static int
getNumPtexFaces( OsdHbrMesh const * hmesh, int nfaces ) {
OsdHbrFace * lastface = hmesh->GetFace( nfaces-1 );
assert(lastface);
int result = lastface->GetPtexIndex();
result += (hmesh->GetSubdivision()->FaceIsExtraordinary(hmesh, lastface) ?
lastface->GetNumVertices() : 1);
return result;
}
//------------------------------------------------------------------------------
static void
createCoarseMesh( OsdHbrMesh * const hmesh, int nfaces ) {
// save coarse topology (used for coarse mesh drawing)
g_coarseEdges.clear();
g_coarseEdgeSharpness.clear();
g_coarseVertexSharpness.clear();
for(int i=0; i<nfaces; ++i) {
OsdHbrFace *face = hmesh->GetFace(i);
int nv = face->GetNumVertices();
for(int j=0; j<nv; ++j) {
g_coarseEdges.push_back(face->GetVertex(j)->GetID());
g_coarseEdges.push_back(face->GetVertex((j+1)%nv)->GetID());
g_coarseEdgeSharpness.push_back(face->GetEdge(j)->GetSharpness());
}
}
int nv = hmesh->GetNumVertices();
for(int i=0; i<nv; ++i) {
g_coarseVertexSharpness.push_back(hmesh->GetVertex(i)->GetSharpness());
}
// assign a randomly generated color for each vertex ofthe mesh
createRandomVaryingColors(nv, g_varyingColors);
}
