// // Copyright 2016 Daniel James. // 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) // clang-format off #include "../helpers/prefix.hpp" #include #include #include "../helpers/postfix.hpp" // clang-format on #include #include "../helpers/test.hpp" #include "../helpers/count.hpp" #include // Test that various emplace methods work with different numbers of // arguments. namespace emplace_tests { // Constructible with 2 to 10 arguments struct emplace_value : private test::counted_object { typedef int A0; typedef std::string A1; typedef char A2; typedef int A3; typedef int A4; typedef int A5; typedef int A6; typedef int A7; typedef int A8; typedef int A9; int arg_count; A0 a0; A1 a1; A2 a2; A3 a3; A4 a4; A5 a5; A6 a6; A7 a7; A8 a8; A9 a9; emplace_value(A0 const& b0, A1 const& b1) : arg_count(2), a0(b0), a1(b1) {} emplace_value(A0 const& b0, A1 const& b1, A2 const& b2) : arg_count(3), a0(b0), a1(b1), a2(b2) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3) : arg_count(4), a0(b0), a1(b1), a2(b2), a3(b3) { } emplace_value( A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4) : arg_count(5), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4, A5 const& b5) : arg_count(6), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4), a5(b5) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4, A5 const& b5, A6 const& b6) : arg_count(7), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4), a5(b5), a6(b6) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4, A5 const& b5, A6 const& b6, A7 const& b7) : arg_count(8), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4), a5(b5), a6(b6), a7(b7) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4, A5 const& b5, A6 const& b6, A7 const& b7, A8 const& b8) : arg_count(9), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4), a5(b5), a6(b6), a7(b7), a8(b8) { } emplace_value(A0 const& b0, A1 const& b1, A2 const& b2, A3 const& b3, A4 const& b4, A5 const& b5, A6 const& b6, A7 const& b7, A8 const& b8, A9 const& b9) : arg_count(10), a0(b0), a1(b1), a2(b2), a3(b3), a4(b4), a5(b5), a6(b6), a7(b7), a8(b8), a9(b9) { } friend std::size_t hash_value(emplace_value const& x) { std::size_t r1 = 23894278u; if (x.arg_count >= 1) boost::hash_combine(r1, x.a0); if (x.arg_count >= 2) boost::hash_combine(r1, x.a1); if (x.arg_count >= 3) boost::hash_combine(r1, x.a2); if (x.arg_count >= 4) boost::hash_combine(r1, x.a3); if (x.arg_count >= 5) boost::hash_combine(r1, x.a4); if (x.arg_count >= 6) boost::hash_combine(r1, x.a5); if (x.arg_count >= 7) boost::hash_combine(r1, x.a6); if (x.arg_count >= 8) boost::hash_combine(r1, x.a7); if (x.arg_count >= 9) boost::hash_combine(r1, x.a8); if (x.arg_count >= 10) boost::hash_combine(r1, x.a9); return r1; } friend bool operator==(emplace_value const& x, emplace_value const& y) { if (x.arg_count != y.arg_count) { return false; } if (x.arg_count >= 1 && x.a0 != y.a0) { return false; } if (x.arg_count >= 2 && x.a1 != y.a1) { return false; } if (x.arg_count >= 3 && x.a2 != y.a2) { return false; } if (x.arg_count >= 4 && x.a3 != y.a3) { return false; } if (x.arg_count >= 5 && x.a4 != y.a4) { return false; } if (x.arg_count >= 6 && x.a5 != y.a5) { return false; } if (x.arg_count >= 7 && x.a6 != y.a6) { return false; } if (x.arg_count >= 8 && x.a7 != y.a7) { return false; } if (x.arg_count >= 9 && x.a8 != y.a8) { return false; } if (x.arg_count >= 10 && x.a9 != y.a9) { return false; } return true; } private: emplace_value(); emplace_value(emplace_value const&); }; UNORDERED_AUTO_TEST (emplace_set) { test::check_instances check_; typedef boost::unordered_set > container; typedef container::iterator iterator; typedef std::pair return_type; container x(10); iterator i1; return_type r1, r2; // 2 args emplace_value v1(10, "x"); r1 = x.emplace(10, std::string("x")); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST(r1.second); BOOST_TEST(*r1.first == v1); BOOST_TEST(r1.first == x.find(v1)); BOOST_TEST_EQ(check_.instances(), 2); BOOST_TEST_EQ(check_.constructions(), 2); // 3 args emplace_value v2(3, "foo", 'a'); r1 = x.emplace(3, "foo", 'a'); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST(r1.second); BOOST_TEST(*r1.first == v2); BOOST_TEST(r1.first == x.find(v2)); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); // 7 args with hint + duplicate emplace_value v3(25, "something", 'z', 4, 5, 6, 7); i1 = x.emplace_hint(r1.first, 25, "something", 'z', 4, 5, 6, 7); BOOST_TEST_EQ(x.size(), 3u); BOOST_TEST(*i1 == v3); BOOST_TEST(i1 == x.find(v3)); BOOST_TEST_EQ(check_.instances(), 6); BOOST_TEST_EQ(check_.constructions(), 6); r2 = x.emplace(25, "something", 'z', 4, 5, 6, 7); BOOST_TEST_EQ(x.size(), 3u); BOOST_TEST(!r2.second); BOOST_TEST(i1 == r2.first); // The container has to construct an object in order to check // whether it can emplace, so there's an extra cosntruction // here. BOOST_TEST_EQ(check_.instances(), 6); BOOST_TEST_EQ(check_.constructions(), 7); // 10 args + hint duplicate std::string s1; emplace_value v4(10, s1, 'a', 4, 5, 6, 7, 8, 9, 10); r1 = x.emplace(10, s1, 'a', 4, 5, 6, 7, 8, 9, 10); BOOST_TEST_EQ(x.size(), 4u); BOOST_TEST(r1.second); BOOST_TEST(*r1.first == v4); BOOST_TEST(r1.first == x.find(v4)); BOOST_TEST_EQ(check_.instances(), 8); BOOST_TEST_EQ(check_.constructions(), 9); BOOST_TEST( r1.first == x.emplace_hint(r1.first, 10, "", 'a', 4, 5, 6, 7, 8, 9, 10)); BOOST_TEST( r1.first == x.emplace_hint(r2.first, 10, "", 'a', 4, 5, 6, 7, 8, 9, 10)); BOOST_TEST( r1.first == x.emplace_hint(x.end(), 10, "", 'a', 4, 5, 6, 7, 8, 9, 10)); BOOST_TEST_EQ(check_.instances(), 8); BOOST_TEST_EQ(check_.constructions(), 12); BOOST_TEST_EQ(x.size(), 4u); BOOST_TEST(x.count(v1) == 1); BOOST_TEST(x.count(v2) == 1); BOOST_TEST(x.count(v3) == 1); BOOST_TEST(x.count(v4) == 1); } UNORDERED_AUTO_TEST (emplace_multiset) { test::check_instances check_; typedef boost::unordered_multiset > container; typedef container::iterator iterator; container x(10); iterator i1, i2; // 2 args. emplace_value v1(10, "x"); i1 = x.emplace(10, std::string("x")); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST(i1 == x.find(v1)); BOOST_TEST_EQ(check_.instances(), 2); BOOST_TEST_EQ(check_.constructions(), 2); // 4 args + duplicate emplace_value v2(4, "foo", 'a', 15); i1 = x.emplace(4, "foo", 'a', 15); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST(i1 == x.find(v2)); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); i2 = x.emplace(4, "foo", 'a', 15); BOOST_TEST_EQ(x.size(), 3u); BOOST_TEST(i1 != i2); BOOST_TEST(*i1 == *i2); BOOST_TEST(x.count(*i1) == 2); BOOST_TEST_EQ(check_.instances(), 5); BOOST_TEST_EQ(check_.constructions(), 5); // 7 args + duplicate using hint. emplace_value v3(7, "", 'z', 4, 5, 6, 7); i1 = x.emplace(7, "", 'z', 4, 5, 6, 7); BOOST_TEST_EQ(x.size(), 4u); BOOST_TEST_EQ(i1->a2, 'z'); BOOST_TEST(x.count(*i1) == 1); BOOST_TEST(i1 == x.find(v3)); BOOST_TEST_EQ(check_.instances(), 7); BOOST_TEST_EQ(check_.constructions(), 7); i2 = x.emplace_hint(i1, 7, "", 'z', 4, 5, 6, 7); BOOST_TEST_EQ(x.size(), 5u); BOOST_TEST(*i1 == *i2); BOOST_TEST(i1 != i2); BOOST_TEST(x.count(*i1) == 2); BOOST_TEST_EQ(check_.instances(), 8); BOOST_TEST_EQ(check_.constructions(), 8); // 10 args with bad hint + duplicate emplace_value v4(10, "", 'a', 4, 5, 6, 7, 8, 9, 10); i1 = x.emplace_hint(i2, 10, "", 'a', 4, 5, 6, 7, 8, 9, 10); BOOST_TEST_EQ(x.size(), 6u); BOOST_TEST_EQ(i1->arg_count, 10); BOOST_TEST(i1 == x.find(v4)); BOOST_TEST_EQ(check_.instances(), 10); BOOST_TEST_EQ(check_.constructions(), 10); i2 = x.emplace_hint(x.end(), 10, "", 'a', 4, 5, 6, 7, 8, 9, 10); BOOST_TEST_EQ(x.size(), 7u); BOOST_TEST(*i1 == *i2); BOOST_TEST(i1 != i2); BOOST_TEST(x.count(*i1) == 2); BOOST_TEST_EQ(check_.instances(), 11); BOOST_TEST_EQ(check_.constructions(), 11); BOOST_TEST_EQ(x.count(v1), 1u); BOOST_TEST_EQ(x.count(v2), 2u); BOOST_TEST_EQ(x.count(v3), 2u); } UNORDERED_AUTO_TEST (emplace_map) { test::check_instances check_; typedef boost::unordered_map > container; typedef container::iterator iterator; typedef std::pair return_type; container x(10); return_type r1, r2; // 5/8 args + duplicate emplace_value k1(5, "", 'b', 4, 5); emplace_value m1(8, "xxx", 'z', 4, 5, 6, 7, 8); r1 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(5, "", 'b', 4, 5), boost::make_tuple(8, "xxx", 'z', 4, 5, 6, 7, 8)); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST(r1.second); BOOST_TEST(x.find(k1) == r1.first); BOOST_TEST(x.find(k1)->second == m1); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); r2 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(5, "", 'b', 4, 5), boost::make_tuple(8, "xxx", 'z', 4, 5, 6, 7, 8)); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST(!r2.second); BOOST_TEST(r1.first == r2.first); BOOST_TEST(x.find(k1)->second == m1); BOOST_TEST_EQ(check_.instances(), 4); // constructions could possibly be 5 if the implementation only // constructed the key. BOOST_TEST_EQ(check_.constructions(), 6); // 9/3 args + duplicates with hints, different mapped value. emplace_value k2(9, "", 'b', 4, 5, 6, 7, 8, 9); emplace_value m2(3, "aaa", 'm'); r1 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(3, "aaa", 'm')); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST(r1.second); BOOST_TEST(r1.first->first.arg_count == 9); BOOST_TEST(r1.first->second.arg_count == 3); BOOST_TEST(x.find(k2) == r1.first); BOOST_TEST(x.find(k2)->second == m2); BOOST_TEST_EQ(check_.instances(), 8); BOOST_TEST_EQ(check_.constructions(), 10); BOOST_TEST(r1.first == x.emplace_hint(r1.first, boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(15, "jkjk"))); BOOST_TEST(r1.first == x.emplace_hint(r2.first, boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(275, "xxx", 'm', 6))); BOOST_TEST(r1.first == x.emplace_hint(x.end(), boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(-10, "blah blah", '\0'))); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST(x.find(k2)->second == m2); BOOST_TEST_EQ(check_.instances(), 8); BOOST_TEST_EQ(check_.constructions(), 16); } UNORDERED_AUTO_TEST (emplace_multimap) { test::check_instances check_; typedef boost::unordered_multimap > container; typedef container::iterator iterator; container x(10); iterator i1, i2, i3, i4; // 5/8 args + duplicate emplace_value k1(5, "", 'b', 4, 5); emplace_value m1(8, "xxx", 'z', 4, 5, 6, 7, 8); i1 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(5, "", 'b', 4, 5), boost::make_tuple(8, "xxx", 'z', 4, 5, 6, 7, 8)); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST(x.find(k1) == i1); BOOST_TEST(x.find(k1)->second == m1); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); emplace_value m1a(8, "xxx", 'z', 4, 5, 6, 7, 8); i2 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(5, "", 'b', 4, 5), boost::make_tuple(8, "xxx", 'z', 4, 5, 6, 7, 8)); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST(i1 != i2); BOOST_TEST(i1->second == m1); BOOST_TEST(i2->second == m1a); BOOST_TEST_EQ(check_.instances(), 7); BOOST_TEST_EQ(check_.constructions(), 7); // 9/3 args + duplicates with hints, different mapped value. emplace_value k2(9, "", 'b', 4, 5, 6, 7, 8, 9); emplace_value m2(3, "aaa", 'm'); i1 = x.emplace(boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(3, "aaa", 'm')); BOOST_TEST_EQ(x.size(), 3u); BOOST_TEST(i1->first.arg_count == 9); BOOST_TEST(i1->second.arg_count == 3); BOOST_TEST_EQ(check_.instances(), 11); BOOST_TEST_EQ(check_.constructions(), 11); emplace_value m2a(15, "jkjk"); i2 = x.emplace_hint(i2, boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(15, "jkjk")); emplace_value m2b(275, "xxx", 'm', 6); i3 = x.emplace_hint(i1, boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(275, "xxx", 'm', 6)); emplace_value m2c(-10, "blah blah", '\0'); i4 = x.emplace_hint(x.end(), boost::unordered::piecewise_construct, boost::make_tuple(9, "", 'b', 4, 5, 6, 7, 8, 9), boost::make_tuple(-10, "blah blah", '\0')); BOOST_TEST_EQ(x.size(), 6u); BOOST_TEST(x.find(k2)->second == m2); BOOST_TEST_EQ(check_.instances(), 20); BOOST_TEST_EQ(check_.constructions(), 20); } UNORDERED_AUTO_TEST (try_emplace) { test::check_instances check_; typedef boost::unordered_map container; typedef container::iterator iterator; typedef std::pair return_type; container x(10); return_type r1, r2, r3; int k1 = 3; emplace_value m1(414, "grr"); r1 = x.try_emplace(3, 414, "grr"); BOOST_TEST(r1.second); BOOST_TEST(r1.first->first == k1); BOOST_TEST(r1.first->second == m1); BOOST_TEST_EQ(x.size(), 1u); BOOST_TEST_EQ(check_.instances(), 2); BOOST_TEST_EQ(check_.constructions(), 2); int k2 = 10; emplace_value m2(25, "", 'z'); r2 = x.try_emplace(10, 25, std::string(""), 'z'); BOOST_TEST(r2.second); BOOST_TEST(r2.first->first == k2); BOOST_TEST(r2.first->second == m2); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); BOOST_TEST(x.find(k1)->second == m1); BOOST_TEST(x.find(k2)->second == m2); r3 = x.try_emplace(k2, 68, "jfeoj", 'p', 49309, 2323); BOOST_TEST(!r3.second); BOOST_TEST(r3.first == r2.first); BOOST_TEST(r3.first->second == m2); BOOST_TEST_EQ(x.size(), 2u); BOOST_TEST_EQ(check_.instances(), 4); BOOST_TEST_EQ(check_.constructions(), 4); BOOST_TEST(r2.first == x.try_emplace(r2.first, k2, 808709, "what")); BOOST_TEST( r2.first == x.try_emplace(r2.first, k2, 10, "xxx", 'a', 4, 5, 6, 7, 8, 9, 10)); BOOST_TEST(r2.first->second == m2); BOOST_TEST_EQ(x.size(), 2u); } } RUN_TESTS()