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1 // Boost.Geometry Index
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2 //
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3 // Spatial index distance predicates, calculators and checkers used in nearest neighbor query
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4 //
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5 // Copyright (c) 2011-2013 Adam Wulkiewicz, Lodz, Poland.
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6 //
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7 // Use, modification and distribution is subject to the Boost Software License,
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8 // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
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9 // http://www.boost.org/LICENSE_1_0.txt)
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10
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11 #ifndef BOOST_GEOMETRY_INDEX_DISTANCE_PREDICATES_HPP
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12 #define BOOST_GEOMETRY_INDEX_DISTANCE_PREDICATES_HPP
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13
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14 #include <boost/geometry/index/detail/distance_predicates.hpp>
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15
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16 /*!
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17 \defgroup nearest_relations Nearest relations (boost::geometry::index::)
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18 */
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19
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20 namespace boost { namespace geometry { namespace index {
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21
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22 // relations generators
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23
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24 #ifdef BOOST_GEOMETRY_INDEX_DETAIL_EXPERIMENTAL
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25
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26 /*!
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27 \brief Generate to_nearest() relationship.
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28
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29 Generate a nearest query Point and Value's Indexable relationship while calculating
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30 distances. This function may be used to define that knn query should calculate distances
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31 as smallest as possible between query Point and Indexable's points. In other words it
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32 should be the distance to the nearest Indexable's point. This function may be also used
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33 to define distances bounds which indicates that Indexable's nearest point should be
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34 closer or further than value v. This is default relation.
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35
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36 \ingroup nearest_relations
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37
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38 \tparam T Type of wrapped object. This may be a Point for PointRelation or CoordinateType for
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39 MinRelation or MaxRelation
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40
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41 \param v Point or distance value.
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42 */
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43 template <typename T>
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44 detail::to_nearest<T> to_nearest(T const& v)
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45 {
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46 return detail::to_nearest<T>(v);
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47 }
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48
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49 /*!
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50 \brief Generate to_centroid() relationship.
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51
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52 Generate a nearest query Point and Value's Indexable relationship while calculating
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53 distances. This function may be used to define that knn query should calculate distances
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54 between query Point and Indexable's centroid. This function may be also used
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55 to define distances bounds which indicates that Indexable's centroid should be
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56 closer or further than value v.
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57
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58 \ingroup nearest_relations
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59
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60 \tparam T Type of wrapped object. This may be a Point for PointRelation or some CoordinateType for
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61 MinRelation or MaxRelation
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62
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63 \param v Point or distance value.
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64 */
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65 template <typename T>
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66 detail::to_centroid<T> to_centroid(T const& v)
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67 {
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68 return detail::to_centroid<T>(v);
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69 }
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70
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71 /*!
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72 \brief Generate to_furthest() relationship.
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73
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74 Generate a nearest query Point and Value's Indexable relationship while calculating
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75 distances. This function may be used to define that knn query should calculate distances
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76 as biggest as possible between query Point and Indexable's points. In other words it
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77 should be the distance to the furthest Indexable's point. This function may be also used
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78 to define distances bounds which indicates that Indexable's furthest point should be
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79 closer or further than value v.
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80
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81 \ingroup nearest_relations
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82
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83 \tparam T Type of wrapped object. This may be a Point for PointRelation or some CoordinateType for
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84 MinRelation or MaxRelation
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85
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86 \param v Point or distance value.
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87 */
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88 template <typename T>
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89 detail::to_furthest<T> to_furthest(T const& v)
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90 {
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91 return detail::to_furthest<T>(v);
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92 }
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93
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94 #endif // BOOST_GEOMETRY_INDEX_DETAIL_EXPERIMENTAL
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95
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96 // distance predicates generators
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97
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98 /*!
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99 \brief Generate unbounded() distance predicate.
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100
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101 Generate a distance predicate. This defines distances bounds which are used by knn query.
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102 This function indicates that there is no distance bounds and Values should be returned
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103 if distances between Point and Indexable are the smallest. Distance calculation is defined
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104 by PointRelation. This is default nearest predicate.
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105
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106 \ingroup distance_predicates
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107
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108 \tparam PointRelation PointRelation type.
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109
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110 \param pr The point relation. This may be generated by \c index::to_nearest(),
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111 \c index::to_centroid() or \c index::to_furthest() with \c Point passed as a parameter.
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112 */
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113 //template <typename PointRelation>
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114 //inline detail::unbounded<PointRelation>
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115 //unbounded(PointRelation const& pr)
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116 //{
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117 // return detail::unbounded<PointRelation>(pr);
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118 //}
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119
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120 /*!
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121 \brief Generate min_bounded() distance predicate.
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122
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123 Generate a distance predicate. This defines distances bounds which are used by knn query.
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124 This function indicates that Values should be returned only if distances between Point and
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125 Indexable are greater or equal to some min_distance passed in MinRelation. Check for closest Value is
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126 defined by PointRelation. So it is possible e.g. to return Values with centroids closest to some
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127 Point but only if nearest points are further than some distance.
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128
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129 \ingroup distance_predicates
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130
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131 \tparam PointRelation PointRelation type.
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132 \tparam MinRelation MinRelation type.
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133
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134 \param pr The point relation. This may be generated by \c to_nearest(),
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135 \c to_centroid() or \c to_furthest() with \c Point passed as a parameter.
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136 \param minr The minimum bound relation. This may be generated by \c to_nearest(),
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137 \c to_centroid() or \c to_furthest() with distance value passed as a parameter.
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138 */
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139 //template <typename PointRelation, typename MinRelation>
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140 //inline detail::min_bounded<PointRelation, MinRelation>
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141 //min_bounded(PointRelation const& pr, MinRelation const& minr)
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142 //{
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143 // return detail::min_bounded<PointRelation, MinRelation>(pr, minr);
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144 //}
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145
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146 /*!
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147 \brief Generate max_bounded() distance predicate.
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148
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149 Generate a distance predicate. This defines distances bounds which are used by knn query.
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150 This function indicates that Values should be returned only if distances between Point and
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151 Indexable are lesser or equal to some max_distance passed in MaxRelation. Check for closest Value is
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152 defined by PointRelation. So it is possible e.g. to return Values with centroids closest to some
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153 Point but only if nearest points are closer than some distance.
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154
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155 \ingroup distance_predicates
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156
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157 \tparam PointRelation PointRelation type.
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158 \tparam MaxRelation MaxRelation type.
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159
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160 \param pr The point relation. This may be generated by \c to_nearest(),
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161 \c to_centroid() or \c to_furthest() with \c Point passed as a parameter.
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162 \param maxr The maximum bound relation. This may be generated by \c to_nearest(),
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163 \c to_centroid() or \c to_furthest() with distance value passed as a parameter.
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164 */
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165 //template <typename PointRelation, typename MaxRelation>
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166 //inline detail::max_bounded<PointRelation, MaxRelation>
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167 //max_bounded(PointRelation const& pr, MaxRelation const& maxr)
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168 //{
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169 // return detail::max_bounded<PointRelation, MaxRelation>(pr, maxr);
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170 //}
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171
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172 /*!
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173 \brief Generate bounded() distance predicate.
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174
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175 Generate a distance predicate. This defines distances bounds which are used by knn query.
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176 This function indicates that Values should be returned only if distances between Point and
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177 Indexable are greater or equal to some min_distance passed in MinRelation and lesser or equal to
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178 some max_distance passed in MaxRelation. Check for closest Value is defined by PointRelation.
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179 So it is possible e.g. to return Values with centroids closest to some Point but only if nearest
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180 points are further than some distance and closer than some other distance.
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181
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182 \ingroup distance_predicates
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183
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184 \tparam PointRelation PointRelation type.
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185 \tparam MinRelation MinRelation type.
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186 \tparam MaxRelation MaxRelation type.
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187
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188 \param pr The point relation. This may be generated by \c to_nearest(),
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189 \c to_centroid() or \c to_furthest() with \c Point passed as a parameter.
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190 \param minr The minimum bound relation. This may be generated by \c to_nearest(),
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191 \c to_centroid() or \c to_furthest() with distance value passed as a parameter.
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192 \param maxr The maximum bound relation. This may be generated by \c to_nearest(),
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193 \c to_centroid() or \c to_furthest() with distance value passed as a parameter.
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194 */
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195 //template <typename PointRelation, typename MinRelation, typename MaxRelation>
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196 //inline detail::bounded<PointRelation, MinRelation, MaxRelation>
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197 //bounded(PointRelation const& pr, MinRelation const& minr, MaxRelation const& maxr)
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198 //{
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199 // return detail::bounded<PointRelation, MinRelation, MaxRelation>(pr, minr, maxr);
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200 //}
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201
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202 }}} // namespace boost::geometry::index
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203
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204 #endif // BOOST_GEOMETRY_INDEX_DISTANCE_PREDICATES_HPP
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