CGAL 5.1.4 - Triangulated Surface Mesh Segmentation
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CGAL::sdf_values()
CGAL::sdf_values_postprocessing()
CGAL::segmentation_from_sdf_values()
CGAL::segmentation_via_sdf_values()
Modules | |
Concepts | |
Functions | |
template<class TriangleMesh , class SDFPropertyMap , class PointPropertyMap = typename boost::property_map<TriangleMesh, boost::vertex_point_t>::type, class GeomTraits = typename Kernel_traits<typename boost::property_traits<PointPropertyMap>::value_type>::Kernel> | |
std::pair< double, double > | CGAL::sdf_values (const TriangleMesh &triangle_mesh, SDFPropertyMap sdf_values_map, double cone_angle=2.0/3.0 *CGAL_PI, std::size_t number_of_rays=25, bool postprocess=true, PointPropertyMap ppmap=PointPropertyMap(), GeomTraits traits=GeomTraits()) |
Function computing the Shape Diameter Function over a surface mesh. More... | |
template<class TriangleMesh , class SDFPropertyMap > | |
std::pair< double, double > | CGAL::sdf_values_postprocessing (const TriangleMesh &triangle_mesh, SDFPropertyMap sdf_values_map) |
Function post-processing raw SDF values computed per facet. More... | |
template<class TriangleMesh , class SDFPropertyMap , class SegmentPropertyMap , class PointPropertyMap = typename boost::property_map<TriangleMesh, boost::vertex_point_t>::type, class GeomTraits = typename Kernel_traits<typename boost::property_traits<PointPropertyMap>::value_type>::Kernel> | |
std::size_t | CGAL::segmentation_from_sdf_values (const TriangleMesh &triangle_mesh, SDFPropertyMap sdf_values_map, SegmentPropertyMap segment_ids, std::size_t number_of_clusters=5, double smoothing_lambda=0.26, bool output_cluster_ids=false, PointPropertyMap ppmap=PointPropertyMap(), GeomTraits traits=GeomTraits()) |
Function computing the segmentation of a surface mesh given an SDF value per facet. More... | |
template<class TriangleMesh , class SegmentPropertyMap , class PointPropertyMap = typename boost::property_map<TriangleMesh, boost::vertex_point_t>::type, class GeomTraits = typename Kernel_traits<typename boost::property_traits<PointPropertyMap>::value_type>::Kernel> | |
std::size_t | CGAL::segmentation_via_sdf_values (const TriangleMesh &triangle_mesh, SegmentPropertyMap segment_ids, double cone_angle=2.0/3.0 *CGAL_PI, std::size_t number_of_rays=25, std::size_t number_of_clusters=5, double smoothing_lambda=0.26, bool output_cluster_ids=false, PointPropertyMap ppmap=PointPropertyMap(), GeomTraits traits=GeomTraits()) |
Function computing the segmentation of a surface mesh. More... | |
std::pair<double, double> CGAL::sdf_values | ( | const TriangleMesh & | triangle_mesh, |
SDFPropertyMap | sdf_values_map, | ||
double | cone_angle = 2.0 / 3.0 * CGAL_PI , |
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std::size_t | number_of_rays = 25 , |
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bool | postprocess = true , |
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PointPropertyMap | ppmap = PointPropertyMap() , |
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GeomTraits | traits = GeomTraits() |
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) |
#include <CGAL/mesh_segmentation.h>
Function computing the Shape Diameter Function over a surface mesh.
This function implements the Shape Diameter Function (SDF) as described in [4]. It is possible to compute raw SDF values (without post-processing). In such a case, -1 is used to indicate when no SDF value could be computed for a facet.
is_triangle_mesh(triangle_mesh)
TriangleMesh | a model of FaceListGraph |
SDFPropertyMap | a ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::face_descriptor as key and double as value type |
GeomTraits | a model of SegmentationGeomTraits |
PointPropertyMap | a ReadablePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key and GeomTraits::Point_3 as value type. |
triangle_mesh | surface mesh on which SDF values are computed | |
[out] | sdf_values_map | the SDF value of each facet |
cone_angle | opening angle in radians for the cone of each facet | |
number_of_rays | number of rays picked in the cone of each facet. In our experiments, we observe that increasing the number of rays beyond the default has little effect on the quality of the segmentation result | |
postprocess | if true , CGAL::sdf_values_postprocessing() is called on raw SDF value computed. | |
traits | traits class | |
ppmap | point property map. An overload is provided with get(boost::vertex_point,triangle_mesh) as default. |
postprocess
is true
, otherwise minimum and maximum SDF values (before linear normalization) std::pair<double, double> CGAL::sdf_values_postprocessing | ( | const TriangleMesh & | triangle_mesh, |
SDFPropertyMap | sdf_values_map | ||
) |
#include <CGAL/mesh_segmentation.h>
Function post-processing raw SDF values computed per facet.
Post-processing steps applied :
CGAL::segmentation_from_sdf_values()
.See the section Post-processing of Raw SDF Values for more details.
is_triangle_mesh(triangle_mesh)
TriangleMesh | a model of FaceListGraph |
SDFPropertyMap | a ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::face_descriptor as key and double as value type |
triangle_mesh | surface mesh on which SDF values are computed | |
[in,out] | sdf_values_map | the SDF value of each facet |
std::size_t CGAL::segmentation_from_sdf_values | ( | const TriangleMesh & | triangle_mesh, |
SDFPropertyMap | sdf_values_map, | ||
SegmentPropertyMap | segment_ids, | ||
std::size_t | number_of_clusters = 5 , |
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double | smoothing_lambda = 0.26 , |
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bool | output_cluster_ids = false , |
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PointPropertyMap | ppmap = PointPropertyMap() , |
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GeomTraits | traits = GeomTraits() |
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) |
#include <CGAL/mesh_segmentation.h>
Function computing the segmentation of a surface mesh given an SDF value per facet.
This function fills a property map which associates a segment-id (in [0, number of segments -1]) or a cluster-id (in [0, number_of_clusters
-1]) to each facet. A segment is a set of connected facets which are placed under the same cluster (see Figure 67.5).
sdf_values_map
before segmentation. As described in the original paper [4], this normalization is done to preserve thin parts of the mesh by increasing the distance between smaller SDF values and reducing it between larger ones. number_of_clusters
and the final number of segments after segmentation. However, setting a large number of clusters will result in a detailed segmentation of the mesh with a large number of segments.is_triangle_mesh(triangle_mesh)
number_of_clusters > 0
TriangleMesh | a model of FaceListGraph |
SDFPropertyMap | a ReadablePropertyMap with boost::graph_traits<TriangleMesh>::face_descriptor as key and double as value type |
SegmentPropertyMap | a ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::face_descriptor as key and std::size_t as value type |
GeomTraits | a model of SegmentationGeomTraits |
PointPropertyMap | a ReadablePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key and GeomTraits::Point_3 as value type. |
triangle_mesh | surface mesh corresponding to the SDF values | |
sdf_values_map | the SDF value of each facet between [0-1] | |
[out] | segment_ids | the segment or cluster id of each facet |
number_of_clusters | number of clusters for the soft clustering | |
smoothing_lambda | factor which indicates the importance of the surface features for the energy minimization. It is recommended to choose a value in the interval [0,1]. See the section Hard clustering for more details. | |
output_cluster_ids | if false fill segment_ids with segment-ids, and with cluster-ids otherwise (see Figure 67.5) | |
traits | traits class | |
ppmap | point property map. An overload is provided with get(boost::vertex_point,triangle_mesh) as default. |
output_cluster_ids
is set to false
and number_of_clusters
otherwise std::size_t CGAL::segmentation_via_sdf_values | ( | const TriangleMesh & | triangle_mesh, |
SegmentPropertyMap | segment_ids, | ||
double | cone_angle = 2.0 / 3.0 * CGAL_PI , |
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std::size_t | number_of_rays = 25 , |
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std::size_t | number_of_clusters = 5 , |
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double | smoothing_lambda = 0.26 , |
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bool | output_cluster_ids = false , |
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PointPropertyMap | ppmap = PointPropertyMap() , |
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GeomTraits | traits = GeomTraits() |
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) |
#include <CGAL/mesh_segmentation.h>
Function computing the segmentation of a surface mesh.
This function is equivalent to calling the functions CGAL::sdf_values()
and CGAL::segmentation_from_sdf_values()
with the same parameters.
number_of_clusters
and the final number of segments after segmentation. However, setting a large number of clusters will result in a detailed segmentation of the mesh with a large number of segments. CGAL::sdf_values()
and use them in different calls to CGAL::segmentation_from_sdf_values()
.is_triangle_mesh(triangle_mesh)
number_of_clusters > 0
TriangleMesh | a model of FaceListGraph |
SegmentPropertyMap | a ReadWritePropertyMap with boost::graph_traits<TriangleMesh>::face_descriptor as key and std::size_t as value type |
GeomTraits | a model of SegmentationGeomTraits |
PointPropertyMap | a ReadablePropertyMap with boost::graph_traits<TriangleMesh>::vertex_descriptor as key and GeomTraits::Point_3 as value type. |
triangle_mesh | surface mesh on which SDF values are computed | |
[out] | segment_ids | the segment or cluster id of each facet |
cone_angle | opening angle in radians for the cone of each facet | |
number_of_rays | number of rays picked in the cone of each facet. In our experiments, we observe that increasing the number of rays beyond the default has a little effect on the quality of the segmentation result | |
number_of_clusters | number of clusters for the soft clustering | |
smoothing_lambda | factor which indicates the importance of the surface features for the energy minimization. It is recommended to choose a value in the interval [0,1]. See the section Hard clustering for more details. | |
output_cluster_ids | if false fill segment_ids with segment-ids, and with cluster-ids otherwise (see Figure 67.5) | |
traits | traits class | |
ppmap | point property map. An overload is provided with get(boost::vertex_point,triangle_mesh) as default. |
output_cluster_ids
is set to false
and number_of_clusters
otherwise