/* * Copyright 2016-present Facebook, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include class TestIntrusiveObject { public: explicit TestIntrusiveObject(size_t id__) : id_(id__) {} size_t id() { return id_; } private: folly::AtomicIntrusiveLinkedListHook hook_; size_t id_; public: using List = folly::AtomicIntrusiveLinkedList< TestIntrusiveObject, &TestIntrusiveObject::hook_>; }; TEST(AtomicIntrusiveLinkedList, Basic) { TestIntrusiveObject a(1), b(2), c(3); TestIntrusiveObject::List list; EXPECT_TRUE(list.empty()); { EXPECT_TRUE(list.insertHead(&a)); EXPECT_FALSE(list.insertHead(&b)); EXPECT_FALSE(list.empty()); size_t id = 0; list.sweep([&](TestIntrusiveObject* obj) mutable { ++id; EXPECT_EQ(id, obj->id()); }); EXPECT_TRUE(list.empty()); } // Try re-inserting the same item (b) and a new item (c) { EXPECT_TRUE(list.insertHead(&b)); EXPECT_FALSE(list.insertHead(&c)); EXPECT_FALSE(list.empty()); size_t id = 1; list.sweep([&](TestIntrusiveObject* obj) mutable { ++id; EXPECT_EQ(id, obj->id()); }); EXPECT_TRUE(list.empty()); } TestIntrusiveObject::List movedList = std::move(list); } TEST(AtomicIntrusiveLinkedList, ReverseSweep) { TestIntrusiveObject a(1), b(2), c(3); TestIntrusiveObject::List list; list.insertHead(&a); list.insertHead(&b); list.insertHead(&c); size_t next_expected_id = 3; list.reverseSweep([&](TestIntrusiveObject* obj) { auto const expected = next_expected_id--; EXPECT_EQ(expected, obj->id()); }); EXPECT_TRUE(list.empty()); // Test that we can still insert list.insertHead(&a); EXPECT_FALSE(list.empty()); list.reverseSweep([](TestIntrusiveObject*) {}); } TEST(AtomicIntrusiveLinkedList, Move) { TestIntrusiveObject a(1), b(2); TestIntrusiveObject::List list1; EXPECT_TRUE(list1.insertHead(&a)); EXPECT_FALSE(list1.insertHead(&b)); EXPECT_FALSE(list1.empty()); TestIntrusiveObject::List list2(std::move(list1)); EXPECT_TRUE(list1.empty()); EXPECT_FALSE(list2.empty()); TestIntrusiveObject::List list3; EXPECT_TRUE(list3.empty()); list3 = std::move(list2); EXPECT_TRUE(list2.empty()); EXPECT_FALSE(list3.empty()); size_t id = 0; list3.sweep([&](TestIntrusiveObject* obj) mutable { ++id; EXPECT_EQ(id, obj->id()); }); } TEST(AtomicIntrusiveLinkedList, Stress) { static constexpr size_t kNumThreads = 32; static constexpr size_t kNumElements = 100000; std::vector elements; for (size_t i = 0; i < kNumThreads * kNumElements; ++i) { elements.emplace_back(i); } TestIntrusiveObject::List list; std::vector threads; for (size_t threadId = 0; threadId < kNumThreads; ++threadId) { threads.emplace_back([threadId, &list, &elements] { for (size_t id = 0; id < kNumElements; ++id) { list.insertHead(&elements[threadId + kNumThreads * id]); } }); } std::vector ids; TestIntrusiveObject* prev{nullptr}; while (ids.size() < kNumThreads * kNumElements) { list.sweep([&](TestIntrusiveObject* current) { ids.push_back(current->id()); if (prev && prev->id() % kNumThreads == current->id() % kNumThreads) { EXPECT_EQ(prev->id() + kNumThreads, current->id()); } prev = current; }); } std::sort(ids.begin(), ids.end()); for (size_t i = 0; i < kNumThreads * kNumElements; ++i) { EXPECT_EQ(i, ids[i]); } for (auto& thread : threads) { thread.join(); } } class TestObject { public: TestObject(size_t id__, const std::shared_ptr& ptr) : id_(id__), ptr_(ptr) {} size_t id() { return id_; } private: size_t id_; std::shared_ptr ptr_; }; TEST(AtomicLinkedList, Basic) { constexpr size_t kNumElements = 10; using List = folly::AtomicLinkedList; List list; std::shared_ptr ptr = std::make_shared(42); for (size_t id = 0; id < kNumElements; ++id) { list.insertHead({id, ptr}); } size_t counter = 0; list.sweep([&](TestObject object) { EXPECT_EQ(counter, object.id()); EXPECT_EQ(1 + kNumElements - counter, ptr.use_count()); ++counter; }); EXPECT_TRUE(ptr.unique()); }