CGAL 4.6.1 - Triangulated Surface Mesh Simplification
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EdgeCollapsableSurfaceMesh
EdgeCollapsableSurfaceMeshWithConstraints
EdgeProfile
StopPredicate
GetCost
GetPlacement
EdgeCollapseSimplificationVisitor
CGAL::Surface_mesh_simplification::Edge_collapse_visitor_base<ECM>
CGAL::Surface_mesh_simplification::Edge_profile<ECM>
CGAL::Surface_mesh_simplification::Count_stop_predicate<ECM>
CGAL::Surface_mesh_simplification::Count_ratio_stop_predicate<ECM>
CGAL::Surface_mesh_simplification::Edge_length_cost<ECM>
CGAL::Surface_mesh_simplification::Midpoint_placement<ECM>
CGAL::Surface_mesh_simplification::LindstromTurk_cost<ECM>
CGAL::Surface_mesh_simplification::LindstromTurk_placement<ECM>
CGAL::Surface_mesh_simplification::Constrained_placement<Placement,ECM>
Modules | |
Concepts | |
Functions | |
template<class EdgeCollapsableSurfaceMesh , class StopPredicate , class P , class T , class R > | |
int | CGAL::Surface_mesh_simplification::edge_collapse (EdgeCollapsableSurfaceMesh &surface_mesh, StopPredicate const &should_stop, sms_named_params< P, T, R > const &named_parameters) |
Simplifies surface_mesh in-place by collapsing edges, and returns the number of edges effectively removed. More... | |
int CGAL::Surface_mesh_simplification::edge_collapse | ( | EdgeCollapsableSurfaceMesh & | surface_mesh, |
StopPredicate const & | should_stop, | ||
sms_named_params< P, T, R > const & | named_parameters | ||
) |
Simplifies surface_mesh
in-place by collapsing edges, and returns the number of edges effectively removed.
The function Surface_mesh_simplification::edge_collapse
simplifies in-place a triangulated surface mesh by iteratively collapsing edges.
Non-Named Parameters
surface_mesh
is the surface mesh to simplify. It must be a model of the EdgeCollapsableSurfaceMesh
concept.
should_stop
is the stop-condition policy. It must be a model of the StopPredicate
concept.
Named Parameters
named_parameters
holds the list of all the additional parameters used by the edge_collapse
function (including default parameters).
The named parameters list is a composition of function calls separated by a dot ( \( .\)) where the name of each function matches the name of an argument and wraps the actual parameter.
This is an example with 2 arguments:
get_cost(the_actual_cost).halfedge_index_map(the_actual_halfedge_index_map)
the_actual_cost
and the_actual_halfedge_index_map
are the actual parameters, while get_cost()
and halfedge_index_map()
are wrapper functions used to designate each formal argument.
All named parameters have default values so you only need to compose those for which the default is inappropriate. Furthermore, since each actual parameter is wrapped in a function whose name designates the formal argument, the order of named parameters in the list is totally irrelevant.
In the following subsections, each named parameter is documented as a helper function. The argument to each helper function is the actual parameter to edge_collapse()
, while the name of the helper function designates which formal argument it is.
vertex_point_map(VertexPointMap vpm)
Maps each vertex in the surface mesh into a 3D CGAL point.
VertexPointMap
must be a model of ReadWritePropertyMap
with key type boost::graph_traits<EdgeCollapsableSurfaceMesh const>::vertex_descriptor
and with any model of Kernel::Point_3
as value type.
Default: the property map obtained by calling get(CGAL::vertex_point,surface_mesh)
,
halfedge_index_map(HalfedgeIndexMap eim)
Maps each halfedge in the surface mesh into an unsigned integer number in the range [0,num_halfedges(surface_mesh))
.
HalfedgeIndexMap
must be a model of ReadablePropertyMap
with key type boost::graph_traits<EdgeCollapsableSurfaceMesh const>::halfedge_descriptor
and with value type boost::graph_traits<EdgeCollapsableSurfaceMesh>::size_type
Default: the property map obtained by calling get(CGAL::halfedge_index,surface_mesh)
, which requires the surface mesh edges to have an id()
member properly initialized to the require value.
If the edges don't have such an id()
, you must pass some property map explicitly. An external property map can be easily obtained by calling get(CGAL::halfedge_external_index,surface_mesh)
. This constructs on the fly, and returns, a property map which non-intrusively associates a proper id with each edge.
edge_is_constrained_map(EdgeIsConstrainedMap ecm)
Maps each edge in the surface mesh into a Boolean value which indicates if the edge is constrained. EdgeIsConstrainedMap
must be a model ReadablePropertyMap
with key type boost::graph_traits<EdgeCollapsableSurfaceMesh const>::edge_descriptor
and with value type bool
.
surface_mesh
must be a model of the EdgeCollapsableSurfaceMeshWithConstraints
concept.Default: A property map always returning false
, that is no edge is constrained.
get_cost(GetCost gc)
The policy which returns the collapse cost for an edge.
The type of gc
must be a model of the GetCost
concept.
Default: CGAL::Surface_mesh_simplification::LindstromTurk_cost<EdgeCollapsableSurfaceMesh>
.
get_placement(GetPlacement gp)
The policy which returns the placement (position of the replacemet vertex) for an edge.
The type of gp
must be a model of the GetPlacement
concept.
Default: CGAL::Surface_mesh_simplification::LindstromTurk_placement<EdgeCollapsableSurfaceMesh>
visitor(EdgeCollapseSimplificationVisitor v)
The visitor that is called by the edge_collapse
function in certain points to allow the user to track the simplification process.
The type of v
must be a model of the EdgeCollapseSimplificationVisitor
concept.
Default: an implementation-defined dummy visitor.
If you wish to provide your own visitor, you can derive from: CGAL::Surface_mesh_simplification::Edge_collapse_visitor_base<EdgeCollapsableSurfaceMesh>
and override only the callbacks you are interested in.
All these functions naming parameters are defined in namespace CGAL
. Being non-member functions, they could clash with equally named functions in some other namespace. If that happens, simply qualify the first The second and subsequent named parameters shall not be qualified as they are member functions named parameter with CGAL::
, as shown in the examples in the user manual.
vertex_index_map(VertexIndexMap vpm)
This parameter is only used by debug functions and is usually not needed for users.
Maps each vertex in the surface mesh into an unsigned integer number in the range [0,num_vertices(surface_mesh))
.
VertexIndexMap
must be a model of ReadablePropertyMap
with key type boost::graph_traits<EdgeCollapsableSurfaceMesh const>::vertex_descriptor
and with value type boost::graph_traits<EdgeCollapsableSurfaceMesh>::size_type
,
Default: the property map obtained by calling get(CGAL::vertex_index,surface_mesh)
, which requires the surface mesh vertices to have an id()
member properly initialized to the required value.
If the vertices don't have such an id()
, you must pass some property map explicitly. An external property map can be easily obtained by calling get(CGAL::vertex_external_index,surface_mesh)
. This constructs on the fly, and returns, a property map which non-intrusively associates a proper id with each vertex.
Semantics
The simplification process continues until the should_stop
policy returns true
or the surface mesh cannot be simplified any further due to topological constraints.
get_cost
and get_placement
are the policies which control the cost-strategy, that is, the order in which edges are collapsed and the remaining vertex is re-positioned.
visitor
is used to keep track of the simplification process. It has several member functions which are called at certain points in the simplification code.
#include <CGAL/Surface_mesh_simplification/edge_collapse.h>