void SubModel::fillContainer(const AABSPTree<Triangle>::Node& pNode, int &pTreeNodePos, int &pTrianglePos, Vector3& pLo, Vector3& pHi)
{
TreeNode treeNode = TreeNode(pNode.valueArray.size(), pTrianglePos);
treeNode.setSplitAxis(pNode.splitAxis);
treeNode.setSplitLocation(pNode.splitLocation);
int currentTreeNodePos = pTreeNodePos++;
Vector3 lo = Vector3(inf(),inf(),inf());
Vector3 hi = Vector3(-inf(),-inf(),-inf());
for(int i=0;i<pNode.valueArray.size(); i++)
{
G3D::_AABSPTree::Handle<Triangle>* h= pNode.valueArray[i];
Triangle t = h->value;
TriangleBox triangleBox = TriangleBox(t.vertex(0),t.vertex(1), t.vertex(2));
lo = lo.min(triangleBox.getBounds().getLo().getVector3());
hi = hi.max(triangleBox.getBounds().getHi().getVector3());
getTriangles()[pTrianglePos++] = triangleBox;
}
if(pNode.child[0] != 0)
{
treeNode.setChildPos(0, pTreeNodePos);
fillContainer(*pNode.child[0], pTreeNodePos, pTrianglePos, lo, hi);
}
if(pNode.child[1] != 0)
{
treeNode.setChildPos(1, pTreeNodePos);
fillContainer(*pNode.child[1], pTreeNodePos, pTrianglePos, lo, hi);
}
treeNode.setBounds(lo,hi);
// get absolute bounds
pLo = pLo.min(lo);
pHi = pHi.max(hi);
getTreeNodes()[currentTreeNodePos] = treeNode;
}
void CalculateBox (const dgVector* const position, const dgInt32* const faceIndices)
{
dgVector p0;
dgVector p1;
TriangleBox (position, faceIndices, p0, p1);
p0 = p0.CompProduct3(dgVector (DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, dgFloat32 (0.0f)));
p1 = p1.CompProduct3(dgVector (DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, dgFloat32 (0.0f)));
m_minBox.m_x = dgFloor (p0.m_x) * DG_DEFORMABLE_INV_PADDING;
m_minBox.m_y = dgFloor (p0.m_y) * DG_DEFORMABLE_INV_PADDING;
m_minBox.m_z = dgFloor (p0.m_z) * DG_DEFORMABLE_INV_PADDING;
m_minBox.m_w = dgFloat32 (0.0f);
m_maxBox.m_x = dgFloor (p1.m_x + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING;
m_maxBox.m_y = dgFloor (p1.m_y + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING;
m_maxBox.m_z = dgFloor (p1.m_z + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING;
m_maxBox.m_w = dgFloat32 (0.0f);
dgVector side0 (m_maxBox - m_minBox);
dgVector side1 (side0.m_y, side0.m_z, side0.m_x, dgFloat32 (0.0f));
m_surfaceArea = side0 % side1;
}
dgInt32 UpdateBox (const dgVector* const position, const dgInt32* const faceIndices)
{
dgVector p0;
dgVector p1;
TriangleBox (position, faceIndices, p0, p1);
p0 = p0.CompProduct3(dgVector (DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, dgFloat32 (0.0f)));
p1 = p1.CompProduct3(dgVector (DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, DG_DEFORMABLE_PADDING, dgFloat32 (0.0f)));
dgVector minP (dgFloor (p0.m_x) * DG_DEFORMABLE_INV_PADDING, dgFloor (p0.m_y) * DG_DEFORMABLE_INV_PADDING, dgFloor (p0.m_z) * DG_DEFORMABLE_INV_PADDING, dgFloat32(0.0f));
dgVector maxP (dgFloor (p1.m_x + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING,
dgFloor (p1.m_y + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING,
dgFloor (p1.m_z + dgFloat32 (1.0f)) * DG_DEFORMABLE_INV_PADDING, dgFloat32(0.0f));
dgInt32 state = dgCompareBox (minP, maxP, m_minBox, m_maxBox);
if (state) {
m_minBox = minP;
m_maxBox = maxP;
dgVector side0 (m_maxBox - m_minBox);
dgVector side1 (side0.m_y, side0.m_z, side0.m_x, dgFloat32 (0.0f));
m_surfaceArea = side0 % side1;
}
return state;
}
