// Copyright (c) 2009 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/linked_list.h" #include "base/basictypes.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class Node : public LinkNode<Node> { public: explicit Node(int id) : id_(id) {} int id() const { return id_; } private: int id_; }; class MultipleInheritanceNodeBase { public: MultipleInheritanceNodeBase() : field_taking_up_space_(0) {} int field_taking_up_space_; }; class MultipleInheritanceNode : public MultipleInheritanceNodeBase, public LinkNode<MultipleInheritanceNode> { public: MultipleInheritanceNode() {} }; // Checks that when iterating |list| (either from head to tail, or from // tail to head, as determined by |forward|), we get back |node_ids|, // which is an array of size |num_nodes|. void ExpectListContentsForDirection(const LinkedList<Node>& list, int num_nodes, const int* node_ids, bool forward) { int i = 0; for (const LinkNode<Node>* node = (forward ? list.head() : list.tail()); node != list.end(); node = (forward ? node->next() : node->previous())) { ASSERT_LT(i, num_nodes); int index_of_id = forward ? i : num_nodes - i - 1; EXPECT_EQ(node_ids[index_of_id], node->value()->id()); ++i; } EXPECT_EQ(num_nodes, i); } void ExpectListContents(const LinkedList<Node>& list, int num_nodes, const int* node_ids) { { SCOPED_TRACE("Iterating forward (from head to tail)"); ExpectListContentsForDirection(list, num_nodes, node_ids, true); } { SCOPED_TRACE("Iterating backward (from tail to head)"); ExpectListContentsForDirection(list, num_nodes, node_ids, false); } } TEST(LinkedList, Empty) { LinkedList<Node> list; EXPECT_EQ(list.end(), list.head()); EXPECT_EQ(list.end(), list.tail()); ExpectListContents(list, 0, NULL); } TEST(LinkedList, Append) { LinkedList<Node> list; ExpectListContents(list, 0, NULL); Node n1(1); list.Append(&n1); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n1, list.tail()); { const int expected[] = {1}; ExpectListContents(list, arraysize(expected), expected); } Node n2(2); list.Append(&n2); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n2, list.tail()); { const int expected[] = {1, 2}; ExpectListContents(list, arraysize(expected), expected); } Node n3(3); list.Append(&n3); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n3, list.tail()); { const int expected[] = {1, 2, 3}; ExpectListContents(list, arraysize(expected), expected); } } TEST(LinkedList, RemoveFromList) { LinkedList<Node> list; Node n1(1); Node n2(2); Node n3(3); Node n4(4); Node n5(5); list.Append(&n1); list.Append(&n2); list.Append(&n3); list.Append(&n4); list.Append(&n5); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n5, list.tail()); { const int expected[] = {1, 2, 3, 4, 5}; ExpectListContents(list, arraysize(expected), expected); } // Remove from the middle. n3.RemoveFromList(); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n5, list.tail()); { const int expected[] = {1, 2, 4, 5}; ExpectListContents(list, arraysize(expected), expected); } // Remove from the tail. n5.RemoveFromList(); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n4, list.tail()); { const int expected[] = {1, 2, 4}; ExpectListContents(list, arraysize(expected), expected); } // Remove from the head. n1.RemoveFromList(); EXPECT_EQ(&n2, list.head()); EXPECT_EQ(&n4, list.tail()); { const int expected[] = {2, 4}; ExpectListContents(list, arraysize(expected), expected); } // Empty the list. n2.RemoveFromList(); n4.RemoveFromList(); ExpectListContents(list, 0, NULL); EXPECT_EQ(list.end(), list.head()); EXPECT_EQ(list.end(), list.tail()); // Fill the list once again. list.Append(&n1); list.Append(&n2); list.Append(&n3); list.Append(&n4); list.Append(&n5); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n5, list.tail()); { const int expected[] = {1, 2, 3, 4, 5}; ExpectListContents(list, arraysize(expected), expected); } } TEST(LinkedList, InsertBefore) { LinkedList<Node> list; Node n1(1); Node n2(2); Node n3(3); Node n4(4); list.Append(&n1); list.Append(&n2); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n2, list.tail()); { const int expected[] = {1, 2}; ExpectListContents(list, arraysize(expected), expected); } n3.InsertBefore(&n2); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n2, list.tail()); { const int expected[] = {1, 3, 2}; ExpectListContents(list, arraysize(expected), expected); } n4.InsertBefore(&n1); EXPECT_EQ(&n4, list.head()); EXPECT_EQ(&n2, list.tail()); { const int expected[] = {4, 1, 3, 2}; ExpectListContents(list, arraysize(expected), expected); } } TEST(LinkedList, InsertAfter) { LinkedList<Node> list; Node n1(1); Node n2(2); Node n3(3); Node n4(4); list.Append(&n1); list.Append(&n2); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n2, list.tail()); { const int expected[] = {1, 2}; ExpectListContents(list, arraysize(expected), expected); } n3.InsertAfter(&n2); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n3, list.tail()); { const int expected[] = {1, 2, 3}; ExpectListContents(list, arraysize(expected), expected); } n4.InsertAfter(&n1); EXPECT_EQ(&n1, list.head()); EXPECT_EQ(&n3, list.tail()); { const int expected[] = {1, 4, 2, 3}; ExpectListContents(list, arraysize(expected), expected); } } TEST(LinkedList, MultipleInheritanceNode) { MultipleInheritanceNode node; EXPECT_EQ(&node, node.value()); } } // namespace } // namespace base