forked from boostorg/unordered
149 lines
6.0 KiB
C++
149 lines
6.0 KiB
C++
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// Copyright 2006-2007 Daniel James.
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// Distributed under the Boost Software License, Version 1.0. (See accompanying
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// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
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#include <boost/unordered_set.hpp>
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#include <boost/unordered_map.hpp>
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#include <boost/detail/lightweight_test.hpp>
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#include <boost/next_prior.hpp>
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#include "../objects/test.hpp"
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#include "../helpers/random_values.hpp"
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#include "../helpers/tracker.hpp"
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#include "../helpers/equivalent.hpp"
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#include "../helpers/helpers.hpp"
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#include <iostream>
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template <class Container>
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void erase_tests1(Container* = 0)
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{
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std::cerr<<"Erase by key.\n";
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{
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test::random_values<Container> v(1000);
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Container x(v.begin(), v.end());
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for(typename test::random_values<Container>::iterator it = v.begin();
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it != v.end(); ++it)
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{
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std::size_t count = x.count(test::get_key<Container>(*it));
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std::size_t old_size = x.size();
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BOOST_TEST(count == x.erase(test::get_key<Container>(*it)));
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BOOST_TEST(x.size() == old_size - count);
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BOOST_TEST(x.count(test::get_key<Container>(*it)) == 0);
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BOOST_TEST(x.find(test::get_key<Container>(*it)) == x.end());
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}
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}
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std::cerr<<"erase(begin()).\n";
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{
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test::random_values<Container> v(1000);
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Container x(v.begin(), v.end());
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std::size_t size = x.size();
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while(size > 0 && !x.empty())
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{
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typename Container::key_type key = test::get_key<Container>(*x.begin());
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std::size_t count = x.count(key);
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typename Container::iterator pos = x.erase(x.begin());
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--size;
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BOOST_TEST(pos == x.begin());
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BOOST_TEST(x.count(key) == count - 1);
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BOOST_TEST(x.size() == size);
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}
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BOOST_TEST(x.empty());
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}
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std::cerr<<"erase(random position).\n";
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{
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test::random_values<Container> v(1000);
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Container x(v.begin(), v.end());
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std::size_t size = x.size();
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while(size > 0 && !x.empty())
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{
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using namespace std;
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int index = rand() % x.size();
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typename Container::const_iterator prev, pos, next;
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if(index == 0) {
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prev = pos = x.begin();
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}
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else {
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prev = boost::next(x.begin(), index - 1);
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pos = boost::next(prev);
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}
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next = boost::next(pos);
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typename Container::key_type key = test::get_key<Container>(*pos);
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std::size_t count = x.count(key);
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BOOST_TEST(next == x.erase(pos));
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--size;
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if(size > 0)
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BOOST_TEST(next ==
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(index == 0 ? x.begin() : boost::next(prev)));
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BOOST_TEST(x.count(key) == count - 1);
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BOOST_TEST(x.size() == size);
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}
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BOOST_TEST(x.empty());
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}
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std::cerr<<"erase(ranges).\n";
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{
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test::random_values<Container> v(500);
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Container x(v.begin(), v.end());
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std::size_t size = x.size();
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// I'm actually stretching it a little here, as the standard says it
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// returns 'the iterator immediately following the erase elements'
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// and if nothing is erased, then there's nothing to follow. But I
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// think this is the only sensible option...
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BOOST_TEST(x.erase(x.end(), x.end()) == x.end());
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BOOST_TEST(x.erase(x.begin(), x.begin()) == x.begin());
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BOOST_TEST(x.size() == size);
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BOOST_TEST(x.erase(x.begin(), x.end()) == x.end());
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BOOST_TEST(x.empty());
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BOOST_TEST(x.begin() == x.end());
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BOOST_TEST(x.erase(x.begin(), x.end()) == x.begin());
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}
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std::cerr<<"clear().\n";
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{
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test::random_values<Container> v(500);
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Container x(v.begin(), v.end());
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x.clear();
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BOOST_TEST(x.empty());
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BOOST_TEST(x.begin() == x.end());
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}
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}
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int main()
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{
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std::cerr<<"Erase unordered_set<int>.\n";
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erase_tests1((boost::unordered_set<int>*) 0);
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std::cerr<<"\nErase unordered_multiset<int>.\n";
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erase_tests1((boost::unordered_multiset<int>*) 0);
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std::cerr<<"\nErase unordered_map<int>.\n";
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erase_tests1((boost::unordered_map<int, int>*) 0);
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std::cerr<<"\nErase unordered_multimap<int>.\n";
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erase_tests1((boost::unordered_multimap<int, int>*) 0);
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std::cerr<<"\nErase unordered_set<test::object,..>.\n";
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erase_tests1((boost::unordered_set<test::object, test::hash, test::equal_to, test::allocator<test::object> >*) 0);
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std::cerr<<"\nErase unordered_multiset<test::object,..>.\n";
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erase_tests1((boost::unordered_multiset<test::object, test::hash, test::equal_to, test::allocator<test::object> >*) 0);
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std::cerr<<"\nErase unordered_map<test::object,..>.\n";
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erase_tests1((boost::unordered_map<test::object, test::object, test::hash, test::equal_to, test::allocator<test::object> >*) 0);
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std::cerr<<"\nErase unordered_multimap<test::object,..>.\n";
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erase_tests1((boost::unordered_multimap<test::object, test::object, test::hash, test::equal_to, test::allocator<test::object> >*) 0);
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std::cerr<<"\nErase unordered_set<test::equivalent_object,..>.\n";
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erase_tests1((boost::unordered_set<test::equivalent_object, test::hash, test::equal_to, test::allocator<test::equivalent_object> >*) 0);
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std::cerr<<"\nErase unordered_multiset<test::equivalent_object,..>.\n";
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erase_tests1((boost::unordered_multiset<test::equivalent_object, test::hash, test::equal_to, test::allocator<test::equivalent_object> >*) 0);
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std::cerr<<"\nErase unordered_map<test::equivalent_object,..>.\n";
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erase_tests1((boost::unordered_map<test::equivalent_object, test::equivalent_object, test::hash, test::equal_to, test::allocator<test::equivalent_object> >*) 0);
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std::cerr<<"\nErase unordered_multimap<test::equivalent_object,..>.\n";
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erase_tests1((boost::unordered_multimap<test::equivalent_object, test::equivalent_object, test::hash, test::equal_to, test::allocator<test::equivalent_object> >*) 0);
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return boost::report_errors();
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}
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