vector_search.h

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/**
 *  \file IMP/algebra/vector_search.h   \brief Functions to search over vectors.
 *
 *  Copyright 2007-2017 IMP Inventors. All rights reserved.
 *
 */

#ifndef IMPALGEBRA_VECTOR_SEARCH_H
#define IMPALGEBRA_VECTOR_SEARCH_H

#include "VectorD.h"
#include <IMP/types.h>
#include <IMP/Object.h>
#include <IMP/log.h>
#include <IMP/log_macros.h>
#include <IMP/SetCheckState.h>

#include "grid_storages.h"
#include "grid_ranges.h"
#include "GridD.h"
#ifdef IMP_ALGEBRA_USE_IMP_CGAL
#include <IMP/cgal/internal/knn.h>
#endif
#ifdef IMP_ALGEBRA_USE_ANN
#include "internal/ann.h"
#endif
#include "internal/linear_knn.h"
#include <fstream>

#ifdef IMP_ALGEBRA_USE_ANN
#define IMP_KNN_DATA internal::ANNData
#elif defined(IMP_ALGEBRA_USE_IMP_CGAL)
#define IMP_KNN_DATA IMP::cgal::internal::KNNData
#else
#define IMP_KNN_DATA internal::LinearKNNData<D>
#endif

IMPALGEBRA_BEGIN_NAMESPACE

/** @name Vector Search

    These functions and classes create various search structures
    over sets of vectors.
    @{
*/

//! Build a structure for finding nearest neighbors.
/** Different implementations are used depending on what optional dependencies
    are available.
    \uses{class NearestNeighborD, CGAL}
    \uses{class NearestNeighborD, ANN}
 */
template <int D>
class NearestNeighborD : public IMP::Object {
  IMP_KNN_DATA data_;
  double eps_;
#if IMP_HAS_CHECKS >= IMP_INTERNAL
  mutable std::ofstream query_log_;
#endif
  template <class It>
  void instantiate(It b, It e) {
    if (0) {
      // compile all of them
      Ints ret;
      internal::LinearKNNData<D> linear(b, e);
      linear.fill_nearest_neighbors(*b, 3U, eps_, ret);
    }
  }

 public:
  template <class It>
  NearestNeighborD(It b, It e, double epsilon = 0)
      : Object("NearestNeighbor%1%"), data_(b, e), eps_(epsilon) {
    instantiate(b, e);
  }
  NearestNeighborD(const Vector<VectorD<D> > &vs, double epsilon = 0)
      : Object("NearestNeighbor%1%"),
        data_(vs.begin(), vs.end()),
        eps_(epsilon) {
    instantiate(vs.begin(), vs.end());
  }
  //! Log the points and queries to a file for performance studies
  void set_query_log(std::string fname) {
    IMP_INTERNAL_CHECK_VARIABLE(fname);
    IMP_OBJECT_LOG;
    set_was_used(true);
#if IMP_HAS_CHECKS >= IMP_INTERNAL
    query_log_.open(fname.c_str());
    for (unsigned int i = 0; i < data_.get_number_of_points(); ++i) {
      query_log_ << spaces_io(data_.get_point(i)) << std::endl;
    }
    query_log_ << std::endl;
#endif
  }

  unsigned int get_nearest_neighbor(const VectorD<D> &q) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
#if IMP_HAS_CHECKS >= IMP_INTERNAL
    if (query_log_) {
      query_log_ << spaces_io(q) << " " << 1 << std::endl;
    }
#endif
    Ints ret(1);
    data_.fill_nearest_neighbors(q, 1U, eps_, ret);
    return ret[0];
  }
  //! Search using the ith point in the input set.
  unsigned int get_nearest_neighbor(unsigned int i) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
#if IMP_HAS_CHECKS >= IMP_INTERNAL
    if (query_log_) {
      query_log_ << i << " " << 1 << std::endl;
    }
#endif
    Ints ret(2);
    data_.fill_nearest_neighbors(data_.get_point(i), 2U, eps_, ret);
    return ret[1];
  }
  //! Search using the ith point in the input set.
  /** \return the k nearest neighbors. */
  Ints get_nearest_neighbors(unsigned int i, unsigned int k) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
#if IMP_HAS_CHECKS >= IMP_INTERNAL
    if (query_log_) {
      query_log_ << i << " " << k << std::endl;
    }
#endif
    Ints ret(k + 1);
    data_.fill_nearest_neighbors(data_.get_point(i), k + 1, eps_, ret);
    return Ints(++ret.begin(), ret.end());
  }
  Ints get_nearest_neighbors(const algebra::VectorD<D> &v,
                             unsigned int k) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
#if IMP_HAS_CHECKS >= IMP_INTERNAL
    if (query_log_) {
      query_log_ << v << " " << k << std::endl;
    }
#endif
    Ints ret(k + 1);
    data_.fill_nearest_neighbors(v, k, eps_, ret);
    return Ints(++ret.begin(), ret.end());
  }
  //! Find all points within the provided distance.
  Ints get_in_ball(unsigned int i, double distance) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
    Ints ret;
    data_.fill_nearest_neighbors(data_.get_point(i), distance, eps_, ret);
    return Ints(++ret.begin(), ret.end());
  }
  //! Find all points within the provided distance.
  Ints get_in_ball(const VectorD<D> &pt, double distance) const {
    IMP_OBJECT_LOG;
    set_was_used(true);
    Ints ret;
    data_.fill_nearest_neighbors(pt, distance, eps_, ret);
    return ret;
  }
  IMP_OBJECT_METHODS(NearestNeighborD);
};

/** @} */

#ifndef IMP_DOXYGEN
typedef NearestNeighborD<1> NearestNeighbor1D;
typedef NearestNeighborD<2> NearestNeighbor2D;
typedef NearestNeighborD<3> NearestNeighbor3D;
typedef NearestNeighborD<4> NearestNeighbor4D;
typedef NearestNeighborD<5> NearestNeighbor5D;
typedef NearestNeighborD<6> NearestNeighbor6D;
typedef NearestNeighborD<-1> NearestNeighborKD;
#endif

//! Provide an incremental nearest neighbor search function.
/** The interface and behavior is somewhat different than that of
    NearestNeighborD, so be aware.

    Later this can support balls by copying points multiple times.
 */
class IMPALGEBRAEXPORT DynamicNearestNeighbor3D : public Object {
  typedef GridD<3, SparseGridStorageD<3, Ints, UnboundedGridRangeD<3> >, Ints,
                DefaultEmbeddingD<3> > Grid;
  Grid grid_;
  typedef Grid::Index Index;
  typedef Grid::ExtendedIndex EIndex;
  Vector3Ds coords_;
  Vector<Index> indexes_;
  void audit() const;
  void set_coordinates_internal(int id, Vector3D nc);

 public:
  DynamicNearestNeighbor3D(const Vector3Ds &vs, double query_estimate = 1);
  Ints get_in_ball(int id, double distance) const;
  void set_coordinates(int id, Vector3D nc);
  IMP_OBJECT_METHODS(DynamicNearestNeighbor3D);
};
IMPALGEBRA_END_NAMESPACE

#endif /* IMPALGEBRA_VECTOR_SEARCH_H */