////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2004-2013. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // See http://www.boost.org/libs/container for documentation. // ////////////////////////////////////////////////////////////////////////////// #include #include #include #include #include "print_container.hpp" #include "movable_int.hpp" #include "dummy_test_allocator.hpp" #include "set_test.hpp" #include "propagate_allocator_test.hpp" #include "emplace_test.hpp" #include "../../intrusive/test/iterator_test.hpp" using namespace boost::container; namespace boost { namespace container { //Explicit instantiation to detect compilation errors //set template class set < test::movable_and_copyable_int , std::less , test::simple_allocator >; template class set < test::movable_and_copyable_int , std::less , new_allocator >; //multiset template class multiset < test::movable_and_copyable_int , std::less , test::simple_allocator >; template class multiset < test::movable_and_copyable_int , std::less , adaptive_pool >; }} //boost::container //Test recursive structures class recursive_set { public: recursive_set & operator=(const recursive_set &x) { id_ = x.id_; set_ = x.set_; return *this; } int id_; set set_; set::iterator it_; set::const_iterator cit_; set::reverse_iterator rit_; set::const_reverse_iterator crit_; friend bool operator< (const recursive_set &a, const recursive_set &b) { return a.id_ < b.id_; } }; //Test recursive structures class recursive_multiset { public: recursive_multiset & operator=(const recursive_multiset &x) { id_ = x.id_; multiset_ = x.multiset_; return *this; } int id_; multiset multiset_; multiset::iterator it_; multiset::const_iterator cit_; multiset::reverse_iterator rit_; multiset::const_reverse_iterator crit_; friend bool operator< (const recursive_multiset &a, const recursive_multiset &b) { return a.id_ < b.id_; } }; template void test_move() { //Now test move semantics C original; original.emplace(); C move_ctor(boost::move(original)); C move_assign; move_assign.emplace(); move_assign = boost::move(move_ctor); move_assign.swap(original); } bool node_type_test() { using namespace boost::container; { typedef set set_type; set_type src; { test::movable_int mv_1(1), mv_2(2), mv_3(3); src.emplace(boost::move(mv_1)); src.emplace(boost::move(mv_2)); src.emplace(boost::move(mv_3)); } if(src.size() != 3) return false; set_type dst; { test::movable_int mv_3(3); dst.emplace(boost::move(mv_3)); } if(dst.size() != 1) return false; const test::movable_int mv_1(1); const test::movable_int mv_2(2); const test::movable_int mv_3(3); const test::movable_int mv_33(33); set_type::insert_return_type r; r = dst.insert(src.extract(mv_33)); // Key version, try to insert empty node if(! (r.position == dst.end() && r.inserted == false && r.node.empty()) ) return false; r = dst.insert(src.extract(src.find(mv_1))); // Iterator version, successful if(! (r.position == dst.find(mv_1) && r.inserted == true && r.node.empty()) ) return false; r = dst.insert(dst.begin(), src.extract(mv_2)); // Key type version, successful if(! (r.position == dst.find(mv_2) && r.inserted == true && r.node.empty()) ) return false; r = dst.insert(src.extract(mv_3)); // Key type version, unsuccessful if(!src.empty()) return false; if(dst.size() != 3) return false; if(! (r.position == dst.find(mv_3) && r.inserted == false && r.node.value() == mv_3) ) return false; } { typedef multiset multiset_type; multiset_type src; { test::movable_int mv_1(1), mv_2(2), mv_3(3), mv_3bis(3); src.emplace(boost::move(mv_1)); src.emplace(boost::move(mv_2)); src.emplace(boost::move(mv_3)); src.emplace_hint(src.begin(), boost::move(mv_3bis)); } if(src.size() != 4) return false; multiset_type dst; { test::movable_int mv_3(3); dst.emplace(boost::move(mv_3)); } if(dst.size() != 1) return false; const test::movable_int mv_1(1); const test::movable_int mv_2(2); const test::movable_int mv_3(3); const test::movable_int mv_4(4); multiset_type::iterator r; multiset_type::node_type nt(src.extract(mv_3)); r = dst.insert(dst.begin(), boost::move(nt)); if(! (*r == mv_3 && dst.find(mv_3) == r && nt.empty()) ) return false; nt = src.extract(src.find(mv_1)); r = dst.insert(boost::move(nt)); // Iterator version, successful if(! (*r == mv_1 && nt.empty()) ) return false; nt = src.extract(mv_2); r = dst.insert(boost::move(nt)); // Key type version, successful if(! (*r == mv_2 && nt.empty()) ) return false; r = dst.insert(src.extract(mv_3)); // Key type version, successful if(! (*r == mv_3 && r == --multiset_type::iterator(dst.upper_bound(mv_3)) && nt.empty()) ) return false; r = dst.insert(src.extract(mv_4)); // Key type version, unsuccessful if(! (r == dst.end()) ) return false; if(!src.empty()) return false; if(dst.size() != 5) return false; } return true; } struct boost_container_set; struct boost_container_multiset; namespace boost { namespace container { namespace test { template<> struct alloc_propagate_base { template struct apply { typedef boost::container::set, Allocator> type; }; }; template<> struct alloc_propagate_base { template struct apply { typedef boost::container::multiset, Allocator> type; }; }; }}} //boost::container::test template struct GetAllocatorSet { template struct apply { typedef set < ValueType , std::less , typename allocator_traits ::template portable_rebind_alloc::type , typename boost::container::tree_assoc_options < boost::container::tree_type >::type > set_type; typedef multiset < ValueType , std::less , typename allocator_traits ::template portable_rebind_alloc::type , typename boost::container::tree_assoc_options < boost::container::tree_type >::type > multiset_type; }; }; template int test_set_variants() { typedef typename GetAllocatorSet::template apply::set_type MySet; typedef typename GetAllocatorSet::template apply::set_type MyMoveSet; typedef typename GetAllocatorSet::template apply::set_type MyCopySet; typedef typename GetAllocatorSet::template apply::multiset_type MyMultiSet; typedef typename GetAllocatorSet::template apply::multiset_type MyMoveMultiSet; typedef typename GetAllocatorSet::template apply::multiset_type MyCopyMultiSet; typedef std::set MyStdSet; typedef std::multiset MyStdMultiSet; if (0 != test::set_test< MySet ,MyStdSet ,MyMultiSet ,MyStdMultiSet>()){ std::cout << "Error in set_test" << std::endl; return 1; } if (0 != test::set_test< MyMoveSet ,MyStdSet ,MyMoveMultiSet ,MyStdMultiSet>()){ std::cout << "Error in set_test" << std::endl; return 1; } if (0 != test::set_test< MyCopySet ,MyStdSet ,MyCopyMultiSet ,MyStdMultiSet>()){ std::cout << "Error in set_test" << std::endl; return 1; } return 0; } void test_merge_from_different_comparison() { set set1; set > set2; set1.merge(set2); } int main () { //Recursive container instantiation { set set_; multiset multiset_; } //Allocator argument container { set set_((set::allocator_type())); multiset multiset_((multiset::allocator_type())); } //Now test move semantics { test_move >(); test_move >(); } //Test std::pair value type as tree has workarounds to make old std::pair //implementations movable that can break things { boost::container::set > s; std::pair p(0, 0); s.insert(p); s.emplace(p); } if (!boost::container::test::instantiate_constructors, multiset >()) return 1; test_merge_from_different_comparison(); //////////////////////////////////// // Testing allocator implementations //////////////////////////////////// // std:allocator if(test_set_variants< std::allocator, red_black_tree >()){ std::cerr << "test_set_variants< std::allocator > failed" << std::endl; return 1; } // boost::container::adaptive_pool if(test_set_variants< adaptive_pool, red_black_tree>()){ std::cerr << "test_set_variants< adaptive_pool > failed" << std::endl; return 1; } //////////////////////////////////// // Tree implementations //////////////////////////////////// // AVL if(test_set_variants< std::allocator, avl_tree >()){ std::cerr << "test_set_variants< std::allocator, avl_tree > failed" << std::endl; return 1; } // SCAPEGOAT TREE if(test_set_variants< std::allocator, scapegoat_tree >()){ std::cerr << "test_set_variants< std::allocator, scapegoat_tree > failed" << std::endl; return 1; } // SPLAY TREE if(test_set_variants< std::allocator, splay_tree >()){ std::cerr << "test_set_variants< std::allocator, splay_tree > failed" << std::endl; return 1; } //////////////////////////////////// // Emplace testing //////////////////////////////////// const test::EmplaceOptions SetOptions = (test::EmplaceOptions)(test::EMPLACE_HINT | test::EMPLACE_ASSOC); if(!boost::container::test::test_emplace, SetOptions>()) return 1; if(!boost::container::test::test_emplace, SetOptions>()) return 1; //////////////////////////////////// // Allocator propagation testing //////////////////////////////////// if(!boost::container::test::test_propagate_allocator()) return 1; if(!boost::container::test::test_propagate_allocator()) return 1; if (!boost::container::test::test_set_methods_with_initializer_list_as_argument_for >()) return 1; if (!boost::container::test::test_set_methods_with_initializer_list_as_argument_for >()) return 1; //////////////////////////////////// // Test optimize_size option //////////////////////////////////// // // set // typedef set< int*, std::less, std::allocator , tree_assoc_options< optimize_size, tree_type >::type > rbset_size_optimized_no; typedef set< int*, std::less, std::allocator , tree_assoc_options< optimize_size, tree_type >::type > avlset_size_optimized_yes; // // multiset // typedef multiset< int*, std::less, std::allocator , tree_assoc_options< optimize_size, tree_type >::type > rbmset_size_optimized_yes; typedef multiset< int*, std::less, std::allocator , tree_assoc_options< optimize_size, tree_type >::type > avlmset_size_optimized_no; BOOST_STATIC_ASSERT(sizeof(rbmset_size_optimized_yes) < sizeof(rbset_size_optimized_no)); BOOST_STATIC_ASSERT(sizeof(avlset_size_optimized_yes) < sizeof(avlmset_size_optimized_no)); //////////////////////////////////// // Iterator testing //////////////////////////////////// { typedef boost::container::set cont_int; cont_int a; a.insert(0); a.insert(1); a.insert(2); boost::intrusive::test::test_iterator_bidirectional< cont_int >(a); if(boost::report_errors() != 0) { return 1; } } { typedef boost::container::multiset cont_int; cont_int a; a.insert(0); a.insert(1); a.insert(2); boost::intrusive::test::test_iterator_bidirectional< cont_int >(a); if(boost::report_errors() != 0) { return 1; } } //////////////////////////////////// // Node extraction/insertion testing functions //////////////////////////////////// if(!node_type_test()) return 1; return 0; } #include