A subdivision method recursively refines a coarse mesh and generates an ever closer approximation to a smooth surface.
Subdivision_method_3
consists of four subdivision methods and their refinement hosts. Each refinement host is a template function of a polygon mesh class and a geometry policy class. It refines the connectivity of the control mesh and computes the geometry of the refined mesh. The geometry computation is dedicated to the custom geometry policy. A geometry policy consists of functions that compute the new point based on the subdivision stencil. A stencil defines the footprint (a submesh of the control mesh) of a new point.
The four supported refinement hosts are the primal quadrilateral quadrisection (PQQ), the primal triangle quadrisection (PTQ), the dual quadrilateral quadrisection (DQQ), and the \( \sqrt{3}\) triangulation. These refinements are respectively used in Catmull-Clark, Loop, Doo-Sabin and \( \sqrt{3}\) subdivisions.
Refinement Host
A refinement host is a template function of a polygon mesh class and a geometry mask class. It refines the input polygon mesh, and computes new points through the geometry masks. Subdivision_method_3
supports four refinement hosts: PQQ
, PTQ
, DQQ
and Sqrt3
.
RefSchemes.svg
Example
This example program subdivides a polygonal mesh with Catmull-Clark subdivision.
File Subdivision_method_3/CatmullClark_subdivision.cpp
#include <CGAL/Simple_cartesian.h>
#include <CGAL/Surface_mesh.h>
#include <CGAL/boost/graph/graph_traits_Surface_mesh.h>
#include <CGAL/Timer.h>
#include <boost/lexical_cast.hpp>
#include <iostream>
#include <fstream>
int main(int argc, char ** argv) {
if (argc > 4) {
cerr << "Usage: CatmullClark_subdivision [d] [filename_in] [filename_out] \n" ;
cerr << " d -- the depth of the subdivision (default: 1) \n" ;
cerr << " filename_in -- the input mesh (.off) (default: data/quint_tris.off) \n" ;
cerr << " filename_out -- the output mesh (.off) (default: result.off)" << endl;
return 1;
}
int d = (argc > 1) ? boost::lexical_cast<int>(argv[1]) : 1;
const std::string in_file = (argc > 2) ? argv[2] : CGAL::data_file_path("meshes/quint_tris.off" );
const char * out_file = (argc > 3) ? argv[3] : "result.off" ;
PolygonMesh pmesh;
std::ifstream in(in_file);
if (in.fail()) {
std::cerr << "Could not open input file " << in_file << std::endl;
return 1;
}
in >> pmesh;
Timer t;
t.start();
std::cerr << "Done (" << t.time() << " s)" << std::endl;
std::ofstream out(out_file);
out << pmesh;
return 0;
}
See also CGAL::CatmullClark_mask_3 <PolygonMesh>
CGAL::DooSabin_mask_3 <PolygonMesh
CGAL::Loop_mask_3 <PolygonMesh
CGAL::Sqrt3_mask_3 <PolygonMesh>
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::PQQ (PolygonMesh &pmesh, Mask mask, const NamedParameters &np)
applies the PQQ refinement several times on the control mesh pmesh
. More...
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::PTQ (PolygonMesh &pmesh, Mask mask, const NamedParameters &np)
applies the PTQ refinement several times on the control mesh pmesh
. More...
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::DQQ (PolygonMesh &pmesh, Mask mask, const NamedParameters &np)
applies the DQQ refinement several times on the control mesh pmesh
. More...
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::Sqrt3 (PolygonMesh &pmesh, Mask mask, const NamedParameters &np)
applies the \( \sqrt{3}\) refinement several times on the control mesh pmesh
. More...
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::CatmullClark_subdivision (PolygonMesh &pmesh, const NamedParameters &np=parameters::default_values ())
applies Catmull-Clark subdivision several times on the control mesh pmesh
. More...
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::Loop_subdivision (PolygonMesh &pmesh, const NamedParameters &np=parameters::default_values ())
applies Loop subdivision several times on the control mesh pmesh
. More...
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::DooSabin_subdivision (PolygonMesh &pmesh, const NamedParameters &np=parameters::default_values ())
applies DooSabin subdivision several times on the control mesh pmesh
. More...
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::Sqrt3_subdivision (PolygonMesh &pmesh, const NamedParameters &np=parameters::default_values ())
applies \( \sqrt{3}\)-subdivision several times on the control mesh pmesh
. More...
◆ CatmullClark_subdivision()
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::CatmullClark_subdivision
(
PolygonMesh &
pmesh ,
const NamedParameters &
np = parameters::default_values ()
)
#include <CGAL/Subdivision_method_3/subdivision_methods_3.h>
applies Catmull-Clark subdivision several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask CatmullClark_mask_3
. This function overwrites the control mesh pmesh
with the subdivided mesh.
Template Parameters
Parameters
pmesh a polygon mesh
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Precondition pmesh
must be a triangle mesh.
Examples: Subdivision_method_3/CatmullClark_subdivision.cpp .
◆ DooSabin_subdivision()
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::DooSabin_subdivision
(
PolygonMesh &
pmesh ,
const NamedParameters &
np = parameters::default_values ()
)
#include <CGAL/Subdivision_method_3/subdivision_methods_3.h>
applies DooSabin subdivision several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask DooSabin_mask_3
. This function overwrites the control mesh pmesh
with the subdivided mesh.
Template Parameters
Parameters
pmesh a polygon mesh
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Examples: Subdivision_method_3/DooSabin_subdivision.cpp .
◆ DQQ()
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::DQQ
(
PolygonMesh &
pmesh ,
Mask
mask ,
const NamedParameters &
np
)
#include <CGAL/Subdivision_method_3/subdivision_hosts_3.h>
applies the DQQ refinement several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask
. This function overwrites the control mesh pmesh
with the refined mesh.
Template Parameters
Parameters
pmesh a polygon mesh
mask a geometry policy mask
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Precondition pmesh
must be a triangle mesh.
◆ Loop_subdivision()
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::Loop_subdivision
(
PolygonMesh &
pmesh ,
const NamedParameters &
np = parameters::default_values ()
)
#include <CGAL/Subdivision_method_3/subdivision_methods_3.h>
applies Loop subdivision several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask Loop_mask_3
. This function overwrites the control mesh pmesh
with the subdivided mesh.
Template Parameters
Parameters
pmesh a polygon mesh
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Examples: Subdivision_method_3/Loop_subdivision.cpp .
◆ PQQ()
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::PQQ
(
PolygonMesh &
pmesh ,
Mask
mask ,
const NamedParameters &
np
)
#include <CGAL/Subdivision_method_3/subdivision_hosts_3.h>
applies the PQQ refinement several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask
. This function overwrites the control mesh pmesh
with the refined mesh.
Template Parameters
Parameters
pmesh a polygon mesh
mask a geometry policy mask
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
◆ PTQ()
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::PTQ
(
PolygonMesh &
pmesh ,
Mask
mask ,
const NamedParameters &
np
)
#include <CGAL/Subdivision_method_3/subdivision_hosts_3.h>
applies the PTQ refinement several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask
. This function overwrites the control mesh pmesh
with the refined mesh.
Template Parameters
Parameters
pmesh a polygon mesh
mask a geometry policy mask
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Examples: Subdivision_method_3/Customized_subdivision.cpp .
◆ Sqrt3()
template<class PolygonMesh , class Mask , class NamedParameters >
void CGAL::Subdivision_method_3::Sqrt3
(
PolygonMesh &
pmesh ,
Mask
mask ,
const NamedParameters &
np
)
#include <CGAL/Subdivision_method_3/subdivision_hosts_3.h>
applies the \( \sqrt{3}\) refinement several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask
. This function overwrites the control mesh pmesh
with the refined mesh.
Attention The border subdivision only happens every second subdivision step during a single call of this function.
Template Parameters
Parameters
pmesh a polygon mesh
mask a geometry policy mask
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Precondition pmesh
must be a triangle mesh.
◆ Sqrt3_subdivision()
template<class PolygonMesh , class NamedParameters = parameters::Default_named_parameters>
void CGAL::Subdivision_method_3::Sqrt3_subdivision
(
PolygonMesh &
pmesh ,
const NamedParameters &
np = parameters::default_values ()
)
#include <CGAL/Subdivision_method_3/subdivision_methods_3.h>
applies \( \sqrt{3}\)-subdivision several times on the control mesh pmesh
.
The geometry of the refined mesh is computed by the geometry policy mask Sqrt3_mask_3
. This function overwrites the control mesh pmesh
with the subdivided mesh.
Attention The border subdivision only happens every second subdivision step during a single call of this function.
Template Parameters
Parameters
pmesh a polygon mesh
np an optional sequence of Named Parameters among the ones listed below
Optional Named Parameters
vertex_point_map
a property map associating points to the vertices of pmesh
Type: a class model of ReadWritePropertyMap
with boost::graph_traits<PolygonMesh>::vertex_descriptor
as key type and Point_3
as value type
Default: boost::get(CGAL::vertex_point, pmesh)
Extra: If this parameter is omitted, an internal property map for CGAL::vertex_point_t
should be available for the vertices of pmesh
.
number_of_iterations
the number of subdivision steps
Type: unsigned int
Default: 1
Precondition pmesh
must be a triangle mesh.
Examples: Subdivision_method_3/Sqrt3_subdivision.cpp .