/*---------------------------------------------------------------------------*/
unsigned int NifCollisionUtility::getGeometryFromPackedNiTriStrips(bhkPackedNiTriStripsShapeRef pShape, vector<hkGeometry>& geometryMap, vector<Matrix44>& transformAry)
{
hkPackedNiTriStripsDataRef pData (DynamicCast<hkPackedNiTriStripsData>(pShape->GetData()));
float factor(0.1f);
//@TODO: modify factor depending on _nifVersion if necessary
if (pData != NULL)
{
hkGeometry tmpGeo;
hkArray<hkVector4>& vertAry (tmpGeo.m_vertices);
hkArray<hkGeometry::Triangle>& triAry (tmpGeo.m_triangles);
vector<OblivionSubShape> subShapes(pData->GetSubShapes());
vector<Vector3> vertices (pData->GetVertices());
vector<hkTriangle> triangles(pData->GetHavokTriangles());
hkTriangle& triangle (triangles[0]);
Vector3 tVector;
unsigned int verOffset(0);
unsigned int triIndex (0);
unsigned int material (_defaultMaterial);
// convert each sub-shape
for (auto pIter=subShapes.begin(), pEnd=subShapes.end(); pIter != pEnd; ++pIter)
{
// reset arrays
vertAry.clear();
triAry.clear();
// get vertices
for (unsigned int idx(verOffset), idxMax(verOffset+pIter->numVertices); idx < idxMax; ++idx)
{
tVector = vertices[idx];
// scale final vertex
tVector *= factor;
// add vertex to tmp. array
vertAry.pushBack(hkVector4(tVector.x, tVector.y, tVector.z));
} // for (unsigned int idx(verOffset), idxMax(verOffset+pIter->numVertices); idx < idxMax; ++idx)
// get triangles
for (; triIndex < triangles.size(); ++triIndex)
{
// check vertex bounds
triangle = triangles[triIndex];
if ((triangle.triangle.v1 >= (pIter->numVertices + verOffset)) ||
(triangle.triangle.v2 >= (pIter->numVertices + verOffset)) ||
(triangle.triangle.v3 >= (pIter->numVertices + verOffset))
)
{
break;
}
hkGeometry::Triangle tTri;
tTri.set(triangle.triangle.v1-verOffset, triangle.triangle.v2-verOffset, triangle.triangle.v3-verOffset, material);
triAry.pushBack(tTri);
} // for (; triIndex < triangles.size(); ++triIndex)
// re-order triangles points to match same winding
if (_reorderTriangles)
{
reorderTriangles(triAry);
}
// add geometry to result array
geometryMap.push_back(tmpGeo);
// increase vertex offset
verOffset += pIter->numVertices;
} // for (auto pIter=subShapes.begin(), pEnd=subShapes.end(); pIter != pEnd; ++pIter)
} // if (pData != NULL)
return geometryMap.size();
}
bool CollisionImport::ImportPackedNiTriStripsShape(INode *rbody, bhkRigidBodyRef body, bhkPackedNiTriStripsShapeRef shape, INode *parent, Matrix3& tm)
{
if (hkPackedNiTriStripsDataRef data = shape->GetData())
{
Matrix3 ltm(true);
vector<Vector3> verts = data->GetVertices();
vector<Triangle> tris = data->GetTriangles();
vector<Vector3> norms = data->GetNormals();
vector<Niflib::OblivionSubShape> subshapes = (ni.IsFallout3() || ni.IsSkyrim()) ? shape->GetSubShapes() : data->GetSubShapes();
if (subshapes.size() == 0)
{
// Is this possible?
INode *inode = ImportCollisionMesh(verts, tris, norms, tm, parent);
CreatebhkCollisionModifier(inode, bv_type_packed, HavokMaterial(NP_DEFAULT_HVK_MATERIAL), OL_UNIDENTIFIED, 0);
ImportBase(body, shape, parent, inode, ltm);
AddShape(rbody, inode);
}
else
{
unsigned int voff = 0;
unsigned int toff = 0;
INodeTab nodes;
for (int i = 0, n = subshapes.size(); i<n; ++i) {
Niflib::OblivionSubShape& s = subshapes[i];
vector<Vector3> subverts;
vector<Triangle> subtris;
vector<Vector3> subnorms;
subverts.reserve(s.numVertices);
for (unsigned int v=voff; v < (voff + s.numVertices); ++v) {
subverts.push_back( verts[v] );
}
unsigned int vend = (voff + s.numVertices );
// TODO: Fix algorithm. I do not know how to split the triangles here
// Basically, greedily take all triangles until next subshape
// This is not correct but seems to work with most meshes tested.
subtris.reserve( s.numVertices / 2 );
subnorms.reserve( s.numVertices / 2 );
while ( toff < tris.size() ){
Triangle t = tris[toff];
if ( t.v1 >= vend || t.v2 >= vend || t.v3 >= vend )
break;
// remove offset for mesh
t.v1 -= voff; t.v2 -= voff; t.v3 -= voff;
subtris.push_back( t );
subnorms.push_back( norms[toff] );
++toff;
}
voff += s.numVertices;
INode *inode = ImportCollisionMesh(subverts, subtris, subnorms, tm, parent);
CreatebhkCollisionModifier(inode, bv_type_packed, HavokMaterial(s.material), s.layer, s.colFilter);
ImportBase(body, shape, parent, inode, ltm);
if (n > 1)
inode->SetName( FormatText("%s:%d", "OblivionSubShape", i).data() );
nodes.Append(1, &inode);
}
// TODO: Group nodes on import
if ( nodes.Count() > 1 )
{
TSTR shapeName = "bhkPackedNiTriStripsShape";
INode *group = ni.gi->GroupNodes(&nodes, &shapeName, 0);
AddShape(rbody, group);
}
else if ( nodes.Count() == 1 )
{
AddShape(rbody, nodes[0]);
}
}
return true;
}
return false;
}
