53 #ifndef OPENMESH_DECIMATER_MODNORMALDEVIATIONT_HH
54 #define OPENMESH_DECIMATER_MODNORMALDEVIATIONT_HH
60 #include <OpenMesh/Core/Utils/Property.hh>
61 #include <OpenMesh/Core/Geometry/NormalConeT.hh>
87 template <
class MeshT>
108 : Base(_mesh, true), mesh_(Base::
mesh())
111 mesh_.add_property(normal_cones_);
113 const bool mesh_has_normals = _mesh.has_face_normals();
114 _mesh.request_face_normals();
116 if (!mesh_has_normals)
118 omerr() <<
"Mesh has no face normals. Compute them automatically." << std::endl;
119 _mesh.update_face_normals();
126 mesh_.remove_property(normal_cones_);
127 mesh_.release_face_normals();
133 return normal_deviation_ / M_PI * 180.0;
138 normal_deviation_ = _s /
static_cast<Scalar
>(180.0) *
static_cast<Scalar
>(M_PI);
144 if (!normal_cones_.is_valid())
145 mesh_.add_property(normal_cones_);
148 f_end = mesh_.faces_end();
150 for (; f_it != f_end; ++f_it)
151 mesh_.property(normal_cones_, *f_it) =
NormalCone(mesh_.normal(*f_it));
170 mesh_.set_point(_ci.
v0, _ci.
p1);
177 if (_ci.v0vl.is_valid()) fhl = mesh_.face_handle(_ci.v0vl);
178 if (_ci.vrv0.is_valid()) fhr = mesh_.face_handle(_ci.vrv0);
180 for (; vf_it.is_valid(); ++vf_it) {
182 if (fh != _ci.
fl && fh != _ci.
fr) {
183 NormalCone nc = mesh_.property(normal_cones_, fh);
186 if (fh == fhl) nc.
merge(mesh_.property(normal_cones_, _ci.
fl));
187 if (fh == fhr) nc.
merge(mesh_.property(normal_cones_, _ci.
fr));
189 if (nc.
angle() > max_angle) {
190 max_angle = nc.
angle();
191 if (max_angle > 0.5 * normal_deviation_)
199 mesh_.set_point(_ci.
v0, _ci.
p0);
202 return (max_angle < 0.5 * normal_deviation_ ? max_angle :
float( Base::ILLEGAL_COLLAPSE ));
207 if (_factor >= 0.0 && _factor <= 1.0) {
211 Scalar normal_deviation_value = normal_deviation_ *
static_cast<Scalar
>( 180.0 / M_PI * _factor / this->error_tolerance_factor_);
214 this->error_tolerance_factor_ = _factor;
222 for (; vf_it.is_valid(); ++vf_it)
223 mesh_.property(normal_cones_, *vf_it).
230 if (_ci.
vlv1.is_valid()) {
231 fh = mesh_.face_handle(mesh_.opposite_halfedge_handle(_ci.
vlv1));
233 mesh_.property(normal_cones_, fh).
234 merge(mesh_.property(normal_cones_, _ci.
fl));
237 if (_ci.v1vr.is_valid()) {
238 fh = mesh_.face_handle(mesh_.opposite_halfedge_handle(_ci.v1vr));
240 mesh_.property(normal_cones_, fh).
241 merge(mesh_.property(normal_cones_, _ci.
fr));
250 Scalar normal_deviation_;
Base class for all decimation modules.
#define DECIMATING_MODULE(Classname, MeshT, Name)
Convenience macro, to be used in derived modules The macro defines the types.
Definition: ModBaseT.hh:149
Contains all the mesh ingredients like the polygonal mesh, the triangle mesh, different mesh kernels ...
Definition: MeshItems.hh:59
/class NormalCone NormalCone.hh <OpenMesh/Core/Geometry/NormalConeT.hh>
Definition: NormalConeT.hh:78
void merge(const NormalConeT &)
merge _cone; this instance will then enclose both former cones
Definition: NormalConeT_impl.hh:118
Scalar angle() const
returns size of cone (radius in radians)
Definition: NormalConeT.hh:105
Polygonal mesh based on the ArrayKernel.
Definition: PolyMesh_ArrayKernelT.hh:96
Kernel::VertexHandle VertexHandle
Handle for referencing the corresponding item.
Definition: PolyMeshT.hh:136
Kernel::Scalar Scalar
Scalar type.
Definition: PolyMeshT.hh:110
Kernel::EdgeHandle EdgeHandle
Scalar type.
Definition: PolyMeshT.hh:138
Kernel::VertexFaceIter VertexFaceIter
Circulator.
Definition: PolyMeshT.hh:166
Kernel::FaceIter FaceIter
Scalar type.
Definition: PolyMeshT.hh:146
Kernel::Normal Normal
Normal type.
Definition: PolyMeshT.hh:114
Kernel::ConstVertexFaceIter ConstVertexFaceIter
Circulator.
Definition: PolyMeshT.hh:176
Kernel::FaceHandle FaceHandle
Scalar type.
Definition: PolyMeshT.hh:139
Kernel::Point Point
Coordinate type.
Definition: PolyMeshT.hh:112
Handle representing a face property.
Definition: Property.hh:462
Stores information about a halfedge collapse.
Definition: CollapseInfoT.hh:74
Mesh::HalfedgeHandle vlv1
Outer remaining halfedge of diamond spanned by v0, v1, vl, and vr.
Definition: CollapseInfoT.hh:94
Mesh::FaceHandle fr
Right face.
Definition: CollapseInfoT.hh:87
Mesh::Point p0
Position of removed vertex.
Definition: CollapseInfoT.hh:84
Mesh::VertexHandle v1
Remaining vertex.
Definition: CollapseInfoT.hh:83
Mesh::Point p1
Positions of remaining vertex.
Definition: CollapseInfoT.hh:85
Mesh::VertexHandle v0
Vertex to be removed.
Definition: CollapseInfoT.hh:82
Mesh::FaceHandle fl
Left face.
Definition: CollapseInfoT.hh:86
Base class for all decimation modules.
Definition: ModBaseT.hh:193
MeshT & mesh()
Access the mesh associated with the decimater.
Definition: ModBaseT.hh:277
Use Normal deviation to control decimation.
Definition: ModNormalDeviationT.hh:89
void postprocess_collapse(const CollapseInfo &_ci) override
After _from_vh has been collapsed into _to_vh, this method will be called.
Definition: ModNormalDeviationT.hh:219
void set_normal_deviation(Scalar _s)
Set normal deviation ( 0 .. 360 )
Definition: ModNormalDeviationT.hh:137
Scalar normal_deviation() const
Get normal deviation ( 0 .. 360 )
Definition: ModNormalDeviationT.hh:132
void set_error_tolerance_factor(double _factor) override
set the percentage of normal deviation
Definition: ModNormalDeviationT.hh:206
void initialize() override
Allocate and init normal cones.
Definition: ModNormalDeviationT.hh:143
~ModNormalDeviationT()
Destructor.
Definition: ModNormalDeviationT.hh:125
ModNormalDeviationT(MeshT &_mesh, float _max_dev=180.0)
Constructor.
Definition: ModNormalDeviationT.hh:107
float collapse_priority(const CollapseInfo &_ci) override
Control normals when Decimating.
Definition: ModNormalDeviationT.hh:168