3dpcp/.svn/pristine/af/afaae897f24f58b4c663437bbe7e302bf69976b6.svn-base

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2012-09-16 12:33:11 +00:00
/**
* @file
* @brief Representation of a general search trees
* @author Andreas Nuechter. Institute of Computer Science, University of Osnabrueck, Germany.
*/
#ifndef __SEARCHTREE_H__
#define __SEARCHTREE_H__
#include <vector>
using std::vector;
#include "searchCache.h"
#include "ptpair.h"
#include "data_types.h"
/**
* @brief The tree structure
*
* A tree holds the pointer to the data
**/
class Tree {
public:
/**
* Destructor - deletes the tree
* pure virtual, i.e., must be implented by a derived class
*/
virtual inline ~Tree() {};
};
class Scan;
/**
* @brief The search tree structure
*
* A search tree holds the pointer to the data.
* Furthermore, search functionality must be privided
**/
class SearchTree : public Tree {
friend class Scan;
public:
/**
* Constructor (default)
*/
inline SearchTree() {};
/**
* Constructor - Constructs a tree from the input.
* must be implented by a derived class
* @param pts 3D array of points
* @param n number of points
*/
SearchTree(double **pts, int n);
/**
* Destructor - deletes the tree
* virtual, i.e., must be implented by a derived class
*/
virtual inline ~SearchTree() {};
/**
* Aquire a lock on this tree, signaling that its resources are in use. Neccessary for cached data in the scanserver.
*/
virtual inline void lock() {};
/**
* Release the lock on this tree, signaling that its resources are aren't in use anymore. Neccessary for cached data in the scanserver.
*/
virtual inline void unlock() {};
/**
* This Search function returns a pointer to the closest point
* of the query point within maxdist2. If there if no such point
* a 0-pointer might be returned.
*
* @param _p Pointer to query point
* @param maxdist2 Maximal distance for closest points
* @param threadNum If parallel threads share the search tree the thread num must be given
* @return Pointer to closest point
*/
virtual double *FindClosest(double *_p, double maxdist2, int threadNum = 0) const = 0 ;
virtual void getPtPairs(vector <PtPair> *pairs,
double *source_alignxf,
double * const *q_points, unsigned int startindex, unsigned int endindex,
int thread_num,
int rnd, double max_dist_match2, double &sum,
double *centroid_m, double *centroid_d);
virtual void getPtPairs(vector <PtPair> *pairs,
double *source_alignxf,
const DataXYZ& xyz_r, unsigned int startindex, unsigned int endindex,
int thread_num,
int rnd, double max_dist_match2, double &sum,
double *centroid_m, double *centroid_d);
};
/**
* @brief The search tree structure
*
* A search tree holds the pointer to the data.
* Furthermore, search functionality must be privided
**/
class CachedSearchTree : public SearchTree {
public:
/**
* Constructor (default)
*/
inline CachedSearchTree() {};
/**
* Constructor - Constructs a tree from the input.
* pure virtual, i.e., must be implented by a derived class
* @param pts 3D array of points
* @param n number of points
*/
CachedSearchTree(double **pts, int n, CachedSearchTree *_parent = 0);
/**
* Destructor - deletes the tree
* pure virtual, i.e., must be implented by a derived class
*/
virtual inline ~CachedSearchTree() {};
/**
* This Search function returns a pointer to the closest point
* of the query point within maxdist2. This function searches from the
* root to the leafs.
*
* @param _p Pointer to query point
* @param maxdist2 Maximal distance for closest points
* @param threadNum If parallel threads share the search tree the thread num must be given
* @return A new cach Item
*/
virtual SearchTreeCacheItem* FindClosestCacheInit(double *_p, double maxdist2, int threadNum = 0) = 0;
/**
* This Search function returns a pointer to the closest point
* of the query point within maxdist2. This function might be started
* from the leafs.
*
* @param _p Pointer to query point
* @param maxdist2 Maximal distance for closest points
* @param threadNum If parallel threads share the search tree the thread num must be given
* @return A new cach Item
*/
virtual SearchTreeCacheItem* FindClosestCache(double *_p, double maxdist2, int threadNum = 0) = 0;
double *FindClosest(double *_p, double maxdist2, int threadNum = 0) const {
return 0;
}
};
#endif