OpenCV  3.2.0
Open Source Computer Vision
Classes | Public Member Functions | Protected Attributes | List of all members
cvflann::UniqueResultSet< DistanceType > Class Template Referenceabstract

#include "result_set.h"

Inheritance diagram for cvflann::UniqueResultSet< DistanceType >:
cvflann::ResultSet< DistanceType > cvflann::KNNUniqueResultSet< DistanceType > cvflann::RadiusUniqueResultSet< DistanceType > cvflann::KNNRadiusUniqueResultSet< DistanceType >

Classes

struct  DistIndex
 

Public Member Functions

 UniqueResultSet ()
 
virtual void clear ()=0
 
virtual void copy (int *indices, DistanceType *dist, int n_neighbors=-1) const
 
bool full () const
 
size_t size () const
 
virtual void sortAndCopy (int *indices, DistanceType *dist, int n_neighbors=-1) const
 
DistanceType worstDist () const
 
- Public Member Functions inherited from cvflann::ResultSet< DistanceType >
virtual ~ResultSet ()
 
virtual void addPoint (DistanceType dist, int index)=0
 

Protected Attributes

std::set< DistIndexdist_indices_
 
bool is_full_
 
DistanceType worst_distance_
 

Detailed Description

template<typename DistanceType>
class cvflann::UniqueResultSet< DistanceType >

Class that holds the k NN neighbors Faster than KNNResultSet as it uses a binary heap and does not maintain two arrays

Constructor & Destructor Documentation

§ UniqueResultSet()

template<typename DistanceType >
cvflann::UniqueResultSet< DistanceType >::UniqueResultSet ( )

Default cosntructor

Member Function Documentation

§ clear()

template<typename DistanceType >
virtual void cvflann::UniqueResultSet< DistanceType >::clear ( )
pure virtual

§ copy()

template<typename DistanceType >
virtual void cvflann::UniqueResultSet< DistanceType >::copy ( int *  indices,
DistanceType *  dist,
int  n_neighbors = -1 
) const
virtual

Copy the set to two C arrays

Parameters
indicespointer to a C array of indices
distpointer to a C array of distances
n_neighborsthe number of neighbors to copy

§ full()

template<typename DistanceType >
bool cvflann::UniqueResultSet< DistanceType >::full ( ) const
virtual

Check the status of the set

Returns
true if we have k NN

Implements cvflann::ResultSet< DistanceType >.

Reimplemented in cvflann::RadiusUniqueResultSet< DistanceType >.

§ size()

template<typename DistanceType >
size_t cvflann::UniqueResultSet< DistanceType >::size ( ) const

The number of neighbors in the set

Returns

§ sortAndCopy()

template<typename DistanceType >
virtual void cvflann::UniqueResultSet< DistanceType >::sortAndCopy ( int *  indices,
DistanceType *  dist,
int  n_neighbors = -1 
) const
virtual

Copy the set to two C arrays but sort it according to the distance first

Parameters
indicespointer to a C array of indices
distpointer to a C array of distances
n_neighborsthe number of neighbors to copy

§ worstDist()

template<typename DistanceType >
DistanceType cvflann::UniqueResultSet< DistanceType >::worstDist ( ) const
virtual

The distance of the furthest neighbor If we don't have enough neighbors, it returns the max possible value

Returns

Implements cvflann::ResultSet< DistanceType >.

Reimplemented in cvflann::RadiusUniqueResultSet< DistanceType >.

Member Data Documentation

§ dist_indices_

template<typename DistanceType >
std::set<DistIndex> cvflann::UniqueResultSet< DistanceType >::dist_indices_
protected

The best candidates so far

§ is_full_

template<typename DistanceType >
bool cvflann::UniqueResultSet< DistanceType >::is_full_
protected

Flag to say if the set is full

§ worst_distance_

template<typename DistanceType >
DistanceType cvflann::UniqueResultSet< DistanceType >::worst_distance_
protected

The worst distance found so far


The documentation for this class was generated from the following file: