Exemplo n.º 1
0
void InventorShape::computeShape() {
    Bnd_Box bounds;
    BRepBndLib::Add(shape->getShape(), bounds);
    bounds.SetGap(0.0);
    Standard_Real xMin, yMin, zMin, xMax, yMax, zMax;
    bounds.Get(xMin, yMin, zMin, xMax, yMax, zMax);
    Standard_Real deflection = ((xMax-xMin)+(yMax-yMin)+(zMax-zMin))/300.0 * 0.2;
    BRepMesh::Mesh(shape->getShape(), deflection);

    SoGroup* faces = new SoGroup();

    computeFaces(faces, shape->getShape());

    separator->addChild(faces);

    SoGroup* edges = new SoGroup();
    computeEdges(edges, shape->getShape());

    separator->addChild(edges);

    SoGroup* vertices = new SoGroup();
    computeVertices(vertices, shape->getShape());

    separator->addChild(vertices);
}
Exemplo n.º 2
0
ConstCombinatorialEmbedding::ConstCombinatorialEmbedding(
	const ConstCombinatorialEmbedding &C)
	: m_cpGraph(C.m_cpGraph), m_rightFace(*C.m_cpGraph,nullptr)
{
	computeFaces();

	if(C.m_externalFace == nullptr)
		m_externalFace = nullptr;
	else
		m_externalFace = m_rightFace[C.m_externalFace->firstAdj()];
}
Exemplo n.º 3
0
void ConstCombinatorialEmbedding::init(const Graph &G)
{
	m_cpGraph = &G;
	m_rightFace.init(G,nullptr);
	computeFaces();
}
Exemplo n.º 4
0
ConstCombinatorialEmbedding::ConstCombinatorialEmbedding(const Graph &G) :
	m_cpGraph(&G), m_rightFace(G,nullptr)
{
	computeFaces();
}