CGAL 6.1 - Triangulated Surface Mesh Shortest Paths
|
The concept SurfaceMeshShortestPathTraits
describes the types, predicates, and constructions required by the traits class parameter of CGAL::Surface_mesh_shortest_path
.
CopyConstructible
Assignable
CGAL::Surface_mesh_shortest_path_traits<K,P>
Types | |
typedef unspecified_type | Triangle_mesh |
A model of the concept FaceListGraph | |
typedef unspecified_type | FT |
A model of the concept FieldWithSqrt or a model of both Field and RealEmbeddable . | |
typedef unspecified_type | Point_2 |
The 2-dimensional point type. | |
typedef unspecified_type | Vector_2 |
The 2-dimensional vector type. | |
typedef unspecified_type | Ray_2 |
The 2-dimensional ray type. | |
typedef unspecified_type | Line_2 |
The 2-dimensional line type. | |
typedef unspecified_type | Segment_2 |
The 2-dimensional segment type. | |
typedef unspecified_type | Triangle_2 |
The 2-dimensional triangle type. | |
typedef unspecified_type | Barycentric_coordinates |
An ordered triple to specify barycentric coordinates in triangles. | |
typedef unspecified_type | Point_3 |
The 3-dimensional point type. | |
typedef unspecified_type | Vector_3 |
The 3-dimensional vector type. | |
typedef unspecified_type | Ray_3 |
The 3-dimensional ray type. | |
typedef unspecified_type | Triangle_3 |
The 3-dimensional triangle type. | |
Constructions | |
typedef unspecified_type | Construct_point_2 |
Function object type that provides Point_2 operator()(FT x, FT y) and Point_2 operator()(CGAL::ORIGIN) to construct points with cartesian coordinates (x,y) and (0,0) respectively. | |
typedef unspecified_type | Construct_vector_2 |
Function object type that provides Vector_2 operator()(Point_2 a, Point_2 b) to construct the vector b - a | |
typedef unspecified_type | Construct_ray_2 |
Function object type that provides Ray_2 operator()(Point_2 a, Point_2 b) to construct the ray originating from a and passing through b | |
typedef unspecified_type | Construct_line_2 |
Function object type that provides Line_2 operator()(Segment_2 s) and Line_2 operator()(Ray_2 r) to construct the supporting line to s and r respectively. | |
typedef unspecified_type | Construct_segment_2 |
Function object type that provides Segment_2 operator()(Point_2 a, Point_2 b) to construct the segment (a,b) | |
typedef unspecified_type | Construct_triangle_2 |
Function object type that provides Triangle_2 operator()(Point_2 a, Point_2 b, Point_2 c) to construct the triangle (a,b,c) | |
typedef unspecified_type | Construct_vertex_2 |
Function object type that provides Point_2 operator()(Segment_2 s, int i) to return the source or target of s , depending on whether i is 0 or 1 respectively, and Point_2 operator()(Triangle_2 t, int i) to return the i th vertex of t . | |
typedef unspecified_type | Construct_source_2 |
Function object type that provides Point_2 operator()(Segment_2 s) to return the source of s . | |
typedef unspecified_type | Construct_target_2 |
Function object type that provides Point_2 operator()(Segment_2 s) to return the target of s . | |
typedef unspecified_type | Construct_barycenter_2 |
Function object type that provides Point_2 operator()(Point_2 p1, FT w1, Point_2 p2, FT w2) to compute the barycenter of the points p1 and p2 with corresponding weights w1 and w2 , and Point_2 operator()(Point_2 p1, FT w1, Point_2 p2, FT w2, Point_2 p3, FT w3) to compute the barycenter of the points p1 , p2 , and p3 with corresponding weights w1 , w2 , and w3 . | |
typedef unspecified_type | Compute_squared_distance_2 |
Function object type that provides FT operator()(A obj1, B obj2) to compute the squared distance between obj1 and obj2 , A and B can be any one of Point_2 , Segment_2 , type objects. | |
typedef unspecified_type | Intersect_2 |
Function object type. | |
typedef unspecified_type | Construct_point_on_2 |
Function object type that provides Point_2 operator()(Ray_2 r, int i) to construct a point on r , such that i = 0 is the source, and any i > 0 is not the source. | |
typedef unspecified_type | Construct_vector_3 |
Function object type that provides Vector_3 operator()(Point_3 a, Point_3 b) to construct the vector b - a | |
typedef unspecified_type | Construct_triangle_3 |
Function object type that provides Triangle_3 operator()(Point_3 a, Point_3 b, Point_3 c) to construct the triangle (a,b,c) | |
typedef unspecified_type | Construct_vertex_3 |
Function object type that provides Point_3 operator()(Segment_3 s, int i) to return the source or target of s , depending on whether i is 0 or 1 respectively, and Point_3 operator()(Triangle_3 t, int i) to return the i th vertex of t . | |
typedef unspecified_type | Construct_source_3 |
Function object type that provides Point_3 operator()(Segment_3 s) to return the source of s . | |
typedef unspecified_type | Construct_target_3 |
Function object type that provides Point_3 operator()(Segment_3 s) to return the target of s . | |
typedef unspecified_type | Construct_barycenter_3 |
Function object type that provides Point_3 operator()(Point_3 p1, FT w1, Point_3 p2) to compute the barycenter of the points p1 and p2 with corresponding weights w1 and 1-w1 , and Point_3 operator()(Point_3 p1, FT w1, Point_3 p2, FT w2, Point_3 p3, FT w3) to compute the barycenter of the points p1 , p2 , and p3 with corresponding weights w1 , w2 , and w3 . | |
typedef unspecified_type | Compute_squared_distance_3 |
Function object type that provides FT operator()(Point_3 p1, Point_3 p2) to compute the squared distance between p1 and p2 . | |
typedef unspecified_type | Construct_triangle_3_to_triangle_2_projection |
Function object type that provides Triangle_2 operator()(Triangle_3 t) which computes a 2-dimensional projection of t that preserves edge lengths. | |
typedef unspecified_type | Construct_triangle_3_along_segment_2_flattening |
Function object type that provides Triangle_2 operator()(Triangle_3 t, std::size_t i, Segment_2 base) which computes a 2-dimensional projection of t that preserves edge lengths, such that the i th edge of the projection of t is incident to base . | |
typedef unspecified_type | Compute_parametric_distance_along_segment_2 |
Function object type that provides FT operator()(Point_2 x0, Point_2 x1, Point_2 p) which computes the parametric distance of p along the segment [x0,x1] . | |
typedef unspecified_type | Construct_barycentric_coordinates |
Function object type that provides Barycentric_coordinates operator()(FT a, FT b, FT c) to introduce new triangular barycentric coordinates. | |
typedef unspecified_type | Construct_barycentric_coordinates_weight |
Function object type that provides FT operator(Barycentric_coordinates b, std::size_t i) to get the i th weight of barycentric coordinates b . | |
typedef unspecified_type | Construct_barycentric_coordinates_in_triangle_2 |
Function object type that provides Barycentric_coordinates operator()(Triangle_2 t, Point_2 p) which computes the Barycentric location of p in t . | |
typedef unspecified_type | Construct_barycentric_coordinates_in_triangle_3 |
Function object type that provides Barycentric_coordinates operator()(Triangle_3 t, Point_3 p) which computes the Barycentric location of p in t . | |
Predicates | |
typedef unspecified_type | Classify_barycentric_coordinates |
Function object type that provides std::pair<CGAL::Surface_mesh_shortest_paths_3::Barycentric_coordinates_type,std::size_t> operator()(Barycentric_coordinates b) , which computes the classification and the associated edge (if applicable) of the coordinates b | |
typedef unspecified_type | Orientation_2 |
Function object type that provides CGAL::Orientation operator()(Point_2 s1, Point_2 s2, Point_2 s3) , which performs an orientation test for the given points. | |
typedef unspecified_type | Compare_distance_2 |
Function object type that provides CGAL::Comparison_result operator()(Point_2 p1, Point_2 p2, Point_2 p3, Point_2 p4) , which compares the squared distance between p1 and p2 with the squared distance between p3 and p4 . | |
typedef unspecified_type | Compare_relative_intersection_along_segment_2 |
Function object type that provides CGAL::Comparison_result operator()(Segment_2 s1, Line_2 l1, Segment_2 s2, Line_2 l2) . | |
typedef unspecified_type | Is_saddle_vertex |
Function object type that provides template <class VertexPointMap> bool operator()(boost::graph_traits<Triangle_mesh>::vertex_descriptor v, Triangle_mesh& tm, VertexPointMap vpm) that returns true if the vertex is a saddle vertex (more than \( 2 \pi \) surface area over all adjacent faces), and false otherwise. | |
Operations | |
For all of the above predicate and construction types, e.g.
| |
Construct_point_2 | construct_point_2_object () |
returns the point construction functor. | |
Function object type that provides std::pair<CGAL::Surface_mesh_shortest_paths_3::Barycentric_coordinates_type,std::size_t> operator()(Barycentric_coordinates b)
, which computes the classification and the associated edge (if applicable) of the coordinates b
Returns the pair (type
, i
), such that type
is one of the values of CGAL::Surface_mesh_shortest_paths_3::Barycentric_coordinates_type
type
is CGAL::Surface_mesh_shortest_paths_3::BARYCENTRIC_COORDINATES_ON_VERTEX
, i
is the index of that vertextype
is CGAL::Surface_mesh_shortest_paths_3::BARYCENTRIC_COORDINATES_ON_BOUNDARY
, i
is the index of the non-zero edgei
is undefined. typedef unspecified_type SurfaceMeshShortestPathTraits::Compare_relative_intersection_along_segment_2 |
Function object type that provides CGAL::Comparison_result operator()(Segment_2 s1, Line_2 l1, Segment_2 s2, Line_2 l2)
.
This compares the relative parametric intersections of s1
with l1
against s2
with l2
. That is, compare the distance of the intersection of s1
with l1
from the source of s1
, scaled by the length of s1
, to the distance of the intersection of s2
with l2
from the source of s2
, scaled by the length of s2
.
s1
and l1
is a point s2
and l2
is a point Function object type that provides FT operator()(Point_2 x0, Point_2 x1, Point_2 p)
which computes the parametric distance of p
along the segment [x0,x1]
.
That is, it computes t
, such that p = (1.0 - t)*x0 + t*x1
p
is a point in the segment [x0,x1]
typedef unspecified_type SurfaceMeshShortestPathTraits::Construct_triangle_3_along_segment_2_flattening |
Function object type that provides Triangle_2 operator()(Triangle_3 t, std::size_t i, Segment_2 base)
which computes a 2-dimensional projection of t that preserves edge lengths, such that the i
th edge of the projection of t
is incident to base
.
i
th edge of t
is equal to the length of base
Function object type.
Must provide std::optional< std::variant< T... > > operator()(A obj1, B obj2)
to compute the intersection between obj1
and obj2
, where A
and B
can be any type amongst Line_2
, Ray_2
, Segment_2
.
Function object type that provides template <class VertexPointMap> bool operator()(boost::graph_traits<Triangle_mesh>::vertex_descriptor v, Triangle_mesh& tm, VertexPointMap vpm)
that returns true if the vertex is a saddle vertex (more than \( 2 \pi \) surface area over all adjacent faces), and false otherwise.
vpm
must be a model of concept ReadablePropertyMap
that maps from vertex_descriptor
to Point_3
objects.