Point Cloud Library (PCL)  1.14.1-dev
clipper3D.h
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37 
38 #pragma once
39 
40 #include <pcl/memory.h>
41 #include <pcl/pcl_macros.h>
42 #include <pcl/point_cloud.h>
43 #include <vector>
44 #include <Eigen/StdVector>
45 
46 namespace pcl
47 {
48  /**
49  * \brief Base class for 3D clipper objects
50  * \author Suat Gedikli <gedikli@willowgarage.com>
51  * \ingroup filters
52  */
53  template<typename PointT>
54  class Clipper3D
55  {
56  public:
57  using Ptr = shared_ptr<Clipper3D<PointT> >;
58  using ConstPtr = shared_ptr<const Clipper3D<PointT> >;
59 
60  /**
61  * \brief virtual destructor. Never throws an exception.
62  */
63  virtual ~Clipper3D () noexcept = default;
64 
65  /**
66  * \brief interface to clip a single point
67  * \param[in] point the point to check against
68  * \return true, it point still exists, false if its clipped
69  */
70  virtual bool
71  clipPoint3D (const PointT& point) const = 0;
72 
73  /**
74  * \brief interface to clip a line segment given by two end points. The order of the end points is unimportant and will sty the same after clipping.
75  * This means basically, that the direction of the line will not flip after clipping.
76  * \param[in,out] pt1 start point of the line
77  * \param[in,out] pt2 end point of the line
78  * \return true if the clipped line is not empty, thus the parameters are still valid, false if line completely outside clipping space
79  */
80  virtual bool
81  clipLineSegment3D (PointT& pt1, PointT& pt2) const = 0;
82 
83  /**
84  * \brief interface to clip a planar polygon given by an ordered list of points
85  * \param[in,out] polygon the polygon in any direction (ccw or cw) but ordered, thus two neighboring points define an edge of the polygon
86  */
87  virtual void
88  clipPlanarPolygon3D (std::vector<PointT, Eigen::aligned_allocator<PointT> >& polygon) const = 0;
89 
90  /**
91  * \brief interface to clip a planar polygon given by an ordered list of points
92  * \param[in] polygon the polygon in any direction (ccw or cw) but ordered, thus two neighboring points define an edge of the polygon
93  * \param[out] clipped_polygon the clipped polygon
94  */
95  virtual void
96  clipPlanarPolygon3D (const std::vector<PointT, Eigen::aligned_allocator<PointT> >& polygon, std::vector<PointT, Eigen::aligned_allocator<PointT> >& clipped_polygon) const = 0;
97 
98  /**
99  * \brief interface to clip a point cloud
100  * \param[in] cloud_in input point cloud
101  * \param[out] clipped indices of points that remain after clipping the input cloud
102  * \param[in] indices the indices of points in the point cloud to be clipped.
103  * \return list of indices of remaining points after clipping.
104  */
105  virtual void
106  clipPointCloud3D (const pcl::PointCloud<PointT> &cloud_in, Indices& clipped, const Indices& indices = Indices ()) const = 0;
107 
108  /**
109  * \brief polymorphic method to clone the underlying clipper with its parameters.
110  * \return the new clipper object from the specific subclass with all its parameters.
111  */
112  virtual Clipper3D<PointT>*
113  clone () const = 0;
115  };
116 }
Base class for 3D clipper objects.
Definition: clipper3D.h:55
shared_ptr< const Clipper3D< PointT > > ConstPtr
Definition: clipper3D.h:58
virtual ~Clipper3D() noexcept=default
virtual destructor.
virtual bool clipLineSegment3D(PointT &pt1, PointT &pt2) const =0
interface to clip a line segment given by two end points.
shared_ptr< Clipper3D< PointT > > Ptr
Definition: clipper3D.h:57
virtual void clipPlanarPolygon3D(std::vector< PointT, Eigen::aligned_allocator< PointT > > &polygon) const =0
interface to clip a planar polygon given by an ordered list of points
virtual bool clipPoint3D(const PointT &point) const =0
interface to clip a single point
virtual Clipper3D< PointT > * clone() const =0
polymorphic method to clone the underlying clipper with its parameters.
virtual void clipPointCloud3D(const pcl::PointCloud< PointT > &cloud_in, Indices &clipped, const Indices &indices=Indices()) const =0
interface to clip a point cloud
PointCloud represents the base class in PCL for storing collections of 3D points.
Definition: point_cloud.h:173
#define PCL_MAKE_ALIGNED_OPERATOR_NEW
Macro to signal a class requires a custom allocator.
Definition: memory.h:63
Defines functions, macros and traits for allocating and using memory.
Definition: bfgs.h:10
IndicesAllocator<> Indices
Type used for indices in PCL.
Definition: types.h:133
Defines all the PCL and non-PCL macros used.
A point structure representing Euclidean xyz coordinates, and the RGB color.