OpenMesh
OpenMesh::PolyMeshT< Kernel > Class Template Reference

Base type for a polygonal mesh. More...

#include <OpenMesh/Mesh/PolyMeshT.hh>

Inheritance diagram for OpenMesh::PolyMeshT< Kernel >:
Collaboration diagram for OpenMesh::PolyMeshT< Kernel >:

Public Types

typedef PolyMeshT< Kernel > This
 Self type. Used to specify iterators/circulators.
 
typedef Kernel::VertexHandle VertexHandle
 Handle for referencing the corresponding item.
 
typedef Kernel::HalfedgeHandle HalfedgeHandle
 
typedef Kernel::EdgeHandle EdgeHandle
 
typedef Kernel::FaceHandle FaceHandle
 
typedef Kernel::VertexIter VertexIter
 
typedef Kernel::HalfedgeIter HalfedgeIter
 
typedef Kernel::EdgeIter EdgeIter
 
typedef Kernel::FaceIter FaceIter
 
typedef Kernel::ConstVertexIter ConstVertexIter
 
typedef Kernel::ConstHalfedgeIter ConstHalfedgeIter
 
typedef Kernel::ConstEdgeIter ConstEdgeIter
 
typedef Kernel::ConstFaceIter ConstFaceIter
 
Mesh Items
typedef Kernel::Scalar Scalar
 Scalar type.
 
typedef Kernel::Point Point
 Coordinate type.
 
typedef Kernel::Normal Normal
 Normal type.
 
typedef Kernel::Color Color
 Color type.
 
typedef Kernel::TexCoord1D TexCoord1D
 TexCoord1D type.
 
typedef Kernel::TexCoord2D TexCoord2D
 TexCoord2D type.
 
typedef Kernel::TexCoord3D TexCoord3D
 TexCoord3D type.
 
typedef Kernel::Vertex Vertex
 Vertex type.
 
typedef Kernel::Halfedge Halfedge
 Halfedge type.
 
typedef Kernel::Edge Edge
 Edge type.
 
typedef Kernel::Face Face
 Face type.
 
Mesh Circulators

Refer to OpenMesh::Mesh::Iterators or Mesh Iterators and Circulators for documentation.

typedef Kernel::VertexVertexIter VertexVertexIter
 Circulator.
 
typedef Kernel::VertexOHalfedgeIter VertexOHalfedgeIter
 Circulator.
 
typedef Kernel::VertexIHalfedgeIter VertexIHalfedgeIter
 Circulator.
 
typedef Kernel::VertexEdgeIter VertexEdgeIter
 Circulator.
 
typedef Kernel::VertexFaceIter VertexFaceIter
 Circulator.
 
typedef Kernel::FaceVertexIter FaceVertexIter
 Circulator.
 
typedef Kernel::FaceHalfedgeIter FaceHalfedgeIter
 Circulator.
 
typedef Kernel::FaceEdgeIter FaceEdgeIter
 Circulator.
 
typedef Kernel::FaceFaceIter FaceFaceIter
 Circulator.
 
typedef Kernel::ConstVertexVertexIter ConstVertexVertexIter
 Circulator.
 
typedef Kernel::ConstVertexOHalfedgeIter ConstVertexOHalfedgeIter
 Circulator.
 
typedef Kernel::ConstVertexIHalfedgeIter ConstVertexIHalfedgeIter
 Circulator.
 
typedef Kernel::ConstVertexEdgeIter ConstVertexEdgeIter
 Circulator.
 
typedef Kernel::ConstVertexFaceIter ConstVertexFaceIter
 Circulator.
 
typedef Kernel::ConstFaceVertexIter ConstFaceVertexIter
 Circulator.
 
typedef Kernel::ConstFaceHalfedgeIter ConstFaceHalfedgeIter
 Circulator.
 
typedef Kernel::ConstFaceEdgeIter ConstFaceEdgeIter
 Circulator.
 
typedef Kernel::ConstFaceFaceIter ConstFaceFaceIter
 Circulator.
 

Public Member Functions

VertexHandle new_vertex ()
 Uses default copy and assignment operator. More...
 
VertexHandle new_vertex (const Point &_p)
 Adds a new vertex initialized to a custom position. More...
 
VertexHandle new_vertex_dirty (const Point &_p)
 Same as new_vertex(const Point&) but never shrinks, only enlarges the vertex property vectors. More...
 
VertexHandle add_vertex (const Point &_p)
 Alias for new_vertex(const Point&).
 
VertexHandle add_vertex_dirty (const Point &_p)
 Alias for new_vertex_dirty().
 
void calc_edge_vector (EdgeHandle _eh, Normal &_edge_vec) const
 Calculates the edge vector as the vector defined by the halfedge with id #0 (see below)
 
Normal calc_edge_vector (EdgeHandle _eh) const
 Calculates the edge vector as the vector defined by the halfedge with id #0 (see below)
 
void calc_edge_vector (HalfedgeHandle _heh, Normal &_edge_vec) const
 Calculates the edge vector as the difference of the the points defined by to_vertex_handle() and from_vertex_handle()
 
Normal calc_edge_vector (HalfedgeHandle _heh) const
 Calculates the edge vector as the difference of the the points defined by to_vertex_handle() and from_vertex_handle()
 
Scalar calc_edge_length (EdgeHandle _eh) const
 
Scalar calc_edge_length (HalfedgeHandle _heh) const
 Calculates the length of the edge _heh.
 
Scalar calc_edge_sqr_length (EdgeHandle _eh) const
 
Scalar calc_edge_sqr_length (HalfedgeHandle _heh) const
 
void calc_sector_vectors (HalfedgeHandle _in_heh, Normal &_vec0, Normal &_vec1) const
 defines a consistent representation of a sector geometry: the halfedge _in_heh defines the sector orientation the vertex pointed by _in_heh defines the sector center _vec0 and _vec1 are resp. More...
 
Scalar calc_sector_angle (HalfedgeHandle _in_heh) const
 calculates the sector angle. More...
 
void calc_sector_normal (HalfedgeHandle _in_heh, Normal &_sector_normal) const
 calculates the normal (non-normalized) of the face sector defined by the angle <(_in_heh,next_halfedge(_in_heh))
 
Scalar calc_sector_area (HalfedgeHandle _in_heh) const
 calculates the area of the face sector defined by the angle <(_in_heh,next_halfedge(_in_heh)) NOTE: special cases (e.g. More...
 
Scalar calc_dihedral_angle_fast (HalfedgeHandle _heh) const
 calculates the dihedral angle on the halfedge _heh More...
 
Scalar calc_dihedral_angle_fast (EdgeHandle _eh) const
 calculates the dihedral angle on the edge _eh More...
 
Scalar calc_dihedral_angle (HalfedgeHandle _heh) const
 
Scalar calc_dihedral_angle (EdgeHandle _eh) const
 
unsigned int find_feature_edges (Scalar _angle_tresh=OpenMesh::deg_to_rad(44.0))
 tags an edge as a feature if its dihedral angle is larger than _angle_tresh returns the number of the found feature edges, requires edge_status property
 
void split (FaceHandle _fh, const Point &_p)
 Face split (= 1-to-n split)
 
void split (FaceHandle _fh, VertexHandle _vh)
 
void split (EdgeHandle _eh, const Point &_p)
 
void split (EdgeHandle _eh, VertexHandle _vh)
 
Normal vector computation
void update_normals ()
 Compute normals for all primitives. More...
 
void update_normal (FaceHandle _fh)
 Update normal for face _fh.
 
void update_face_normals ()
 Update normal vectors for all faces. More...
 
virtual Normal calc_face_normal (FaceHandle _fh) const
 Calculate normal vector for face _fh. More...
 
Normal calc_face_normal (const Point &_p0, const Point &_p1, const Point &_p2) const
 Calculate normal vector for face (_p0, _p1, _p2). More...
 
void calc_face_centroid (FaceHandle _fh, Point &_pt) const
 calculates the average of the vertices defining _fh
 
Point calc_face_centroid (FaceHandle _fh) const
 Computes and returns the average of the vertices defining _gh.
 
void update_normal (HalfedgeHandle _heh, const double _feature_angle=0.8)
 Update normal for halfedge _heh.
 
void update_halfedge_normals (const double _feature_angle=0.8)
 Update normal vectors for all halfedges. More...
 
virtual Normal calc_halfedge_normal (HalfedgeHandle _heh, const double _feature_angle=0.8) const
 Calculate halfedge normal for one specific halfedge. More...
 
bool is_estimated_feature_edge (HalfedgeHandle _heh, const double _feature_angle) const
 identifies feature edges w.r.t. More...
 
void update_normal (VertexHandle _vh)
 Update normal for vertex _vh.
 
void update_vertex_normals ()
 Update normal vectors for all vertices. More...
 
Normal calc_vertex_normal (VertexHandle _vh) const
 Calculate vertex normal for one specific vertex. More...
 
void calc_vertex_normal_fast (VertexHandle _vh, Normal &_n) const
 Different methods for calculation of the normal at _vh: More...
 
void calc_vertex_normal_correct (VertexHandle _vh, Normal &_n) const
 Compute normals for all primitives. More...
 
void calc_vertex_normal_loop (VertexHandle _vh, Normal &_n) const
 Compute normals for all primitives. More...
 
enum  { IsPolyMesh = 1 }
 Determine whether this is a PolyMeshT or TriMeshT ( This function does not check the per face vertex count! It only checks if the datatype is PolyMeshT or TriMeshT )
 
enum  { IsTriMesh = 0 }
 Determine whether this is a PolyMeshT or TriMeshT ( This function does not check the per face vertex count! It only checks if the datatype is PolyMeshT or TriMeshT )
 
static bool is_polymesh ()
 Determine whether this is a PolyMeshT or TriMeshT ( This function does not check the per face vertex count! It only checks if the datatype is PolyMeshT or TriMeshT )
 
static bool is_trimesh ()
 Determine whether this is a PolyMeshT or TriMeshT ( This function does not check the per face vertex count! It only checks if the datatype is PolyMeshT or TriMeshT )
 

Detailed Description

template<class Kernel>
class OpenMesh::PolyMeshT< Kernel >

Base type for a polygonal mesh.

This is the base class for a polygonal mesh. It is parameterized by a mesh kernel that is given as a template argument. This class inherits all methods from its mesh kernel.

Parameters
Kerneltemplate argument for the mesh kernel
Note
You should use the predefined mesh-kernel combinations in Predefined Mesh Types
See also
Specifying your MyMesh

Member Function Documentation

template<class Kernel>
Scalar OpenMesh::PolyMeshT< Kernel >::calc_dihedral_angle_fast ( HalfedgeHandle  _heh) const
inline

calculates the dihedral angle on the halfedge _heh

Attention
Needs the Attributes::Normal attribute for faces
template<class Kernel>
Scalar OpenMesh::PolyMeshT< Kernel >::calc_dihedral_angle_fast ( EdgeHandle  _eh) const
inline

calculates the dihedral angle on the edge _eh

Attention
Needs the Attributes::Normal attribute for faces
template<class Kernel >
PolyMeshT< Kernel >::Normal OpenMesh::PolyMeshT< Kernel >::calc_face_normal ( FaceHandle  _fh) const
virtual

Calculate normal vector for face _fh.

Reimplemented in OpenMesh::TriMeshT< Kernel >.

template<class Kernel >
PolyMeshT< Kernel >::Normal OpenMesh::PolyMeshT< Kernel >::calc_face_normal ( const Point _p0,
const Point _p1,
const Point _p2 
) const

Calculate normal vector for face (_p0, _p1, _p2).

template<class Kernel >
PolyMeshT< Kernel >::Normal OpenMesh::PolyMeshT< Kernel >::calc_halfedge_normal ( HalfedgeHandle  _heh,
const double  _feature_angle = 0.8 
) const
virtual

Calculate halfedge normal for one specific halfedge.

Calculate normal vector for halfedge _heh.

Note
Face normals have to be computed first!
Attention
Needs the Attributes::Normal attribute for faces and vertices. Call request_face_normals() and request_halfedge_normals() before using it!
Parameters
_hehHandle of the halfedge
_feature_angleIf the dihedral angle across this edge is greater than this value, the edge is considered as a feature edge (angle in radians)
template<class Kernel>
Scalar OpenMesh::PolyMeshT< Kernel >::calc_sector_angle ( HalfedgeHandle  _in_heh) const
inline

calculates the sector angle.


The vertex pointed by _in_heh defines the sector center The angle will be calculated between the given halfedge and the next halfedge.
Seen from the center vertex this will be the next halfedge in clockwise direction.
NOTE: only boundary concave sectors are treated correctly

template<class Kernel>
Scalar OpenMesh::PolyMeshT< Kernel >::calc_sector_area ( HalfedgeHandle  _in_heh) const
inline

calculates the area of the face sector defined by the angle <(_in_heh,next_halfedge(_in_heh)) NOTE: special cases (e.g.

concave sectors) are not handled correctly

template<class Kernel>
void OpenMesh::PolyMeshT< Kernel >::calc_sector_vectors ( HalfedgeHandle  _in_heh,
Normal _vec0,
Normal _vec1 
) const
inline

defines a consistent representation of a sector geometry: the halfedge _in_heh defines the sector orientation the vertex pointed by _in_heh defines the sector center _vec0 and _vec1 are resp.

the first and the second vectors defining the sector

template<class Kernel >
PolyMeshT< Kernel >::Normal OpenMesh::PolyMeshT< Kernel >::calc_vertex_normal ( VertexHandle  _vh) const

Calculate vertex normal for one specific vertex.

Calculate normal vector for vertex _vh by averaging normals of adjacent faces.

Note
Face normals have to be computed first!
Attention
Needs the Attributes::Normal attribute for faces and vertices. Call request_face_normals() and request_vertex_normals() before using it!
Parameters
_vhHandle of the vertex
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::calc_vertex_normal_correct ( VertexHandle  _vh,
Normal _n 
) const

Compute normals for all primitives.

Calls update_face_normals() , update_halfedge_normals() and update_vertex_normals() if the normals (i.e. the properties) exist.

Note
Face normals are required to compute vertex and halfedge normals!
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::calc_vertex_normal_fast ( VertexHandle  _vh,
Normal _n 
) const

Different methods for calculation of the normal at _vh:

  • ..._fast - the default one - the same as calc vertex_normal()
  • ..._correct - works properly for non-triangular meshes
    • does not need any attributes
  • ..._loop - calculates loop surface normals
    • does not need any attributes
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::calc_vertex_normal_loop ( VertexHandle  _vh,
Normal _n 
) const

Compute normals for all primitives.

Calls update_face_normals() , update_halfedge_normals() and update_vertex_normals() if the normals (i.e. the properties) exist.

Note
Face normals are required to compute vertex and halfedge normals!
template<class Kernel >
bool OpenMesh::PolyMeshT< Kernel >::is_estimated_feature_edge ( HalfedgeHandle  _heh,
const double  _feature_angle 
) const

identifies feature edges w.r.t.

the minimal dihedral angle for feature edges (in radians) and the status feature tag

template<class Kernel>
VertexHandle OpenMesh::PolyMeshT< Kernel >::new_vertex ( )
inline

Uses default copy and assignment operator.

Use them to assign two meshes of equal type. If the mesh types vary, use PolyMeshT::assign() instead. Adds a new default-initialized vertex.

See also
new_vertex(const Point&), new_vertex_dirty()
template<class Kernel>
VertexHandle OpenMesh::PolyMeshT< Kernel >::new_vertex ( const Point _p)
inline

Adds a new vertex initialized to a custom position.

See also
new_vertex(), new_vertex_dirty()
template<class Kernel>
VertexHandle OpenMesh::PolyMeshT< Kernel >::new_vertex_dirty ( const Point _p)
inline

Same as new_vertex(const Point&) but never shrinks, only enlarges the vertex property vectors.

If you are rebuilding a mesh that you erased with ArrayKernel::clean() or ArrayKernel::clean_keep_reservation() using this method instead of new_vertex(const Point &) saves reallocation and reinitialization of property memory.

See also
new_vertex(const Point &)
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::update_face_normals ( )

Update normal vectors for all faces.

Attention
Needs the Attributes::Normal attribute for faces. Call request_face_normals() before using it!
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::update_halfedge_normals ( const double  _feature_angle = 0.8)

Update normal vectors for all halfedges.

Uses the existing face normals to compute halfedge normals

Note
Face normals have to be computed first!
Attention
Needs the Attributes::Normal attribute for faces and halfedges. Call request_face_normals() and request_halfedge_normals() before using it!
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::update_normals ( )

Compute normals for all primitives.

Calls update_face_normals() , update_halfedge_normals() and update_vertex_normals() if the normals (i.e. the properties) exist.

Note
Face normals are required to compute vertex and halfedge normals!
template<class Kernel >
void OpenMesh::PolyMeshT< Kernel >::update_vertex_normals ( )

Update normal vectors for all vertices.

Uses existing face normals to calculate new vertex normals.

Note
Face normals have to be computed first!
Attention
Needs the Attributes::Normal attribute for faces and vertices. Call request_face_normals() and request_vertex_normals() before using it!

The documentation for this class was generated from the following files:

Project OpenMesh, ©  Computer Graphics Group, RWTH Aachen. Documentation generated using doxygen .