54#define OPENMESH_JACOBI_LAPLACE_SMOOTHERT_C
76 if (Base::continuity() > Base::C0)
78 Base::mesh_.add_property(umbrellas_);
79 if (Base::continuity() > Base::C1)
80 Base::mesh_.add_property(squared_umbrellas_);
85 if (Base::continuity() > Base::C0)
87 Base::mesh_.remove_property(umbrellas_);
88 if (Base::continuity() > Base::C1)
89 Base::mesh_.remove_property(squared_umbrellas_);
107 for (v_it=Base::mesh_.vertices_begin(); v_it!=v_end; ++v_it)
109 if (this->is_active(*v_it))
113 for (voh_it = Base::mesh_.cvoh_iter(*v_it); voh_it.is_valid(); ++voh_it) {
114 w = this->weight(Base::mesh_.edge_handle(*voh_it));
115 u += vector_cast<typename Mesh::Normal>(Base::mesh_.point(Base::mesh_.to_vertex_handle(*voh_it))) * w;
117 u *= this->weight(*v_it);
118 u -= vector_cast<typename Mesh::Normal>(Base::mesh_.point(*v_it));
124 p = vector_cast<typename Mesh::Normal>(Base::mesh_.point(*v_it));
126 this->set_new_position(*v_it, p);
137JacobiLaplaceSmootherT<Mesh>::
138compute_new_positions_C1()
140 typename Mesh::VertexIter v_it, v_end(Base::mesh_.vertices_end());
143 typename Mesh::Scalar w, diag;
147 for (v_it=Base::mesh_.vertices_begin(); v_it!=v_end; ++v_it)
150 for (voh_it = Base::mesh_.cvoh_iter(*v_it); voh_it.is_valid(); ++voh_it) {
151 w = this->weight(Base::mesh_.edge_handle(*voh_it));
152 u -= vector_cast<typename Mesh::Normal>(Base::mesh_.point(Base::mesh_.to_vertex_handle(*voh_it)))*w;
154 u *= this->weight(*v_it);
155 u += vector_cast<typename Mesh::Normal>(Base::mesh_.point(*v_it));
157 Base::mesh_.property(umbrellas_, *v_it) = u;
162 for (v_it=Base::mesh_.vertices_begin(); v_it!=v_end; ++v_it)
164 if (this->is_active(*v_it))
168 for (voh_it = Base::mesh_.cvoh_iter(*v_it); voh_it.is_valid(); ++voh_it) {
169 w = this->weight(Base::mesh_.edge_handle(*voh_it));
170 uu -= Base::mesh_.property(umbrellas_, Base::mesh_.to_vertex_handle(*voh_it));
171 diag += (w * this->weight(Base::mesh_.to_vertex_handle(*voh_it)) +
static_cast<typename Mesh::Scalar
>(1.0) ) * w;
173 uu *= this->weight(*v_it);
174 diag *= this->weight(*v_it);
175 uu += Base::mesh_.property(umbrellas_, *v_it);
176 if (diag) uu *=
static_cast<typename Mesh::Scalar
>(1.0) / diag;
182 p = vector_cast<typename Mesh::Normal>(Base::mesh_.point(*v_it));
184 this->set_new_position(*v_it, p);
Contains all the mesh ingredients like the polygonal mesh, the triangle mesh, different mesh kernels ...
Definition: MeshItems.hh:59
Kernel::Scalar Scalar
Scalar type.
Definition: PolyMeshT.hh:110
Kernel::Normal Normal
Normal type.
Definition: PolyMeshT.hh:114
Kernel::ConstVertexOHalfedgeIter ConstVertexOHalfedgeIter
Circulator.
Definition: PolyMeshT.hh:173
Kernel::VertexIter VertexIter
Scalar type.
Definition: PolyMeshT.hh:143
T::value_type value_type
Type of the scalar value.
Definition: vector_traits.hh:94
Laplacian Smoothing.
Definition: JacobiLaplaceSmootherT.hh:76
void smooth(unsigned int _n)
Do _n smoothing iterations.
Definition: JacobiLaplaceSmootherT_impl.hh:74
virtual void smooth(unsigned int _n)
Do _n smoothing iterations.
Definition: SmootherT_impl.hh:302