// -*- C++ -*- // // Copyright Sylvain Bougerel 2009 - 2013. // Distributed under the Boost Software License, Version 1.0. // (See accompanying file COPYING or copy at // http://www.boost.org/LICENSE_1_0.txt) /** * \file point_multimap.hpp * Contains the definition of the \point_multimap. */ #ifndef SPATIAL_POINT_MULTIMAP_HPP #define SPATIAL_POINT_MULTIMAP_HPP #include // std::allocator #include // std::pair #include "bits/spatial_relaxed_kdtree.hpp" #include "function.hpp" namespace spatial { /** * These containers are mapped containers and store values in space that can * be represented as points. */ template, typename BalancingPolicy = loose_balancing, typename Alloc = std::allocator > > struct point_multimap : details::Relaxed_kdtree, const Key, std::pair, Compare, BalancingPolicy, Alloc> { private: typedef details::Relaxed_kdtree , const Key, std::pair, Compare, BalancingPolicy, Alloc> base_type; typedef point_multimap Self; public: typedef Mapped mapped_type; point_multimap() { } explicit point_multimap(const Compare& compare) : base_type(details::Static_rank()) { } point_multimap(const Compare& compare, const BalancingPolicy& balancing) : base_type(details::Static_rank(), compare, balancing) { } point_multimap(const Compare& compare, const BalancingPolicy& balancing, const Alloc& alloc) : base_type(details::Static_rank(), compare, balancing, alloc) { } point_multimap(const point_multimap& other) : base_type(other) { } point_multimap& operator=(const point_multimap& other) { return static_cast(base_type::operator=(other)); } }; /** * When specified with a null dimension, the rank of the point_multimap can * be determined at run time and does not need to be fixed at compile time. */ template struct point_multimap<0, Key, Mapped, Compare, BalancingPolicy, Alloc> : details::Relaxed_kdtree, Compare, BalancingPolicy, Alloc> { private: typedef details::Relaxed_kdtree , Compare, BalancingPolicy, Alloc> base_type; typedef point_multimap<0, Key, Mapped, Compare, BalancingPolicy, Alloc> Self; public: typedef Mapped mapped_type; point_multimap() { } explicit point_multimap(dimension_type dim) : base_type(details::Dynamic_rank(dim)) { except::check_rank(dim); } point_multimap(dimension_type dim, const Compare& compare) : base_type(details::Dynamic_rank(dim), compare) { except::check_rank(dim); } point_multimap(dimension_type dim, const Compare& compare, const BalancingPolicy& policy) : base_type(details::Dynamic_rank(dim), compare, policy) { except::check_rank(dim); } point_multimap(dimension_type dim, const Compare& compare, const BalancingPolicy& policy, const Alloc& alloc) : base_type(details::Dynamic_rank(dim), compare, policy, alloc) { except::check_rank(dim); } explicit point_multimap(const Compare& compare) : base_type(details::Dynamic_rank(), compare) { } point_multimap(const Compare& compare, const BalancingPolicy& policy) : base_type(details::Dynamic_rank(), compare, policy) { } point_multimap(const Compare& compare, const BalancingPolicy& policy, const Alloc& alloc) : base_type(details::Dynamic_rank(), compare, policy, alloc) { } point_multimap(const point_multimap& other) : base_type(other) { } point_multimap& operator=(const point_multimap& other) { return static_cast(base_type::operator=(other)); } }; } #endif // SPATIAL_POINT_MULTIMAP_HPP