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14c8373eb0
This makes the user-facing type only take the node member pointer, and lets the compiler figure out the other needed types from that.
192 lines
4.9 KiB
C++
192 lines
4.9 KiB
C++
/*
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* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <LibTest/TestCase.h>
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#include <AK/IntrusiveRedBlackTree.h>
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#include <AK/NonnullOwnPtrVector.h>
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#include <AK/Random.h>
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class IntrusiveTest {
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public:
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IntrusiveTest(int value)
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: m_some_value(value)
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{
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}
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IntrusiveRedBlackTreeNode<int, IntrusiveTest, RawPtr<IntrusiveTest>> m_tree_node;
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int m_some_value;
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};
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using IntrusiveRBTree = IntrusiveRedBlackTree<&IntrusiveTest::m_tree_node>;
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TEST_CASE(construct)
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{
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IntrusiveRBTree empty;
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EXPECT(empty.is_empty());
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EXPECT(empty.size() == 0);
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}
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TEST_CASE(ints)
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{
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IntrusiveRBTree test;
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IntrusiveTest first { 10 };
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test.insert(1, first);
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IntrusiveTest second { 20 };
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test.insert(3, second);
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IntrusiveTest third { 30 };
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test.insert(2, third);
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EXPECT_EQ(test.size(), 3u);
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EXPECT_EQ(test.find(3)->m_some_value, 20);
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EXPECT_EQ(test.find(2)->m_some_value, 30);
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EXPECT_EQ(test.find(1)->m_some_value, 10);
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EXPECT(!test.remove(4));
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EXPECT(test.remove(2));
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EXPECT(test.remove(1));
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EXPECT(test.remove(3));
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EXPECT_EQ(test.size(), 0u);
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}
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TEST_CASE(largest_smaller_than)
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{
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IntrusiveRBTree test;
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IntrusiveTest first { 10 };
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test.insert(1, first);
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IntrusiveTest second { 20 };
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test.insert(11, second);
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IntrusiveTest third { 30 };
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test.insert(21, third);
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EXPECT_EQ(test.size(), 3u);
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EXPECT_EQ(test.find_largest_not_above(3)->m_some_value, 10);
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EXPECT_EQ(test.find_largest_not_above(17)->m_some_value, 20);
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EXPECT_EQ(test.find_largest_not_above(22)->m_some_value, 30);
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EXPECT_EQ(test.find_largest_not_above(-5), nullptr);
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VERIFY(test.remove(1));
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VERIFY(test.remove(11));
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VERIFY(test.remove(21));
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}
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TEST_CASE(key_ordered_iteration)
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{
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constexpr auto amount = 10000;
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IntrusiveRBTree test;
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NonnullOwnPtrVector<IntrusiveTest> m_entries;
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Array<int, amount> keys {};
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// generate random key order
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for (int i = 0; i < amount; i++) {
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keys[i] = i;
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}
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for (size_t i = 0; i < amount; i++) {
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swap(keys[i], keys[get_random<size_t>() % amount]);
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}
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// insert random keys
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for (size_t i = 0; i < amount; i++) {
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auto entry = make<IntrusiveTest>(keys[i]);
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test.insert(keys[i], *entry);
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m_entries.append(move(entry));
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}
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// check key-ordered iteration
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int index = 0;
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for (auto& value : test) {
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EXPECT(value.m_some_value == index++);
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}
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// ensure we can remove all of them (aka, tree structure is not destroyed somehow)
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for (size_t i = 0; i < amount; i++) {
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EXPECT(test.remove(i));
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}
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}
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TEST_CASE(clear)
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{
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IntrusiveRBTree test;
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NonnullOwnPtrVector<IntrusiveTest> m_entries;
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for (size_t i = 0; i < 1000; i++) {
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auto entry = make<IntrusiveTest>(i);
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test.insert(i, *entry);
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m_entries.append(move(entry));
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}
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test.clear();
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EXPECT_EQ(test.size(), 0u);
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}
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class IntrusiveRefPtrTest : public RefCounted<IntrusiveRefPtrTest> {
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public:
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IntrusiveRefPtrTest()
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{
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}
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IntrusiveRedBlackTreeNode<int, IntrusiveRefPtrTest, RefPtr<IntrusiveRefPtrTest>> m_tree_node;
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};
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using IntrusiveRefPtrRBTree = IntrusiveRedBlackTree<&IntrusiveRefPtrTest::m_tree_node>;
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TEST_CASE(intrusive_ref_ptr_no_ref_leaks)
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{
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auto item = adopt_ref(*new IntrusiveRefPtrTest());
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EXPECT_EQ(1u, item->ref_count());
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IntrusiveRefPtrRBTree ref_tree;
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ref_tree.insert(0, *item);
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EXPECT_EQ(2u, item->ref_count());
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ref_tree.remove(0);
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EXPECT_EQ(1u, item->ref_count());
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}
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TEST_CASE(intrusive_ref_ptr_clear)
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{
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auto item = adopt_ref(*new IntrusiveRefPtrTest());
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EXPECT_EQ(1u, item->ref_count());
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IntrusiveRefPtrRBTree ref_tree;
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ref_tree.insert(0, *item);
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EXPECT_EQ(2u, item->ref_count());
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ref_tree.clear();
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EXPECT_EQ(1u, item->ref_count());
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}
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TEST_CASE(intrusive_ref_ptr_destructor)
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{
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auto item = adopt_ref(*new IntrusiveRefPtrTest());
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EXPECT_EQ(1u, item->ref_count());
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{
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IntrusiveRefPtrRBTree ref_tree;
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ref_tree.insert(0, *item);
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EXPECT_EQ(2u, item->ref_count());
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}
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EXPECT_EQ(1u, item->ref_count());
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}
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class IntrusiveNonnullRefPtrTest : public RefCounted<IntrusiveNonnullRefPtrTest> {
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public:
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IntrusiveNonnullRefPtrTest()
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{
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}
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IntrusiveRedBlackTreeNode<int, IntrusiveNonnullRefPtrTest, NonnullRefPtr<IntrusiveNonnullRefPtrTest>> m_tree_node;
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};
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using IntrusiveNonnullRefPtrRBTree = IntrusiveRedBlackTree<&IntrusiveNonnullRefPtrTest::m_tree_node>;
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TEST_CASE(intrusive_nonnull_ref_ptr_intrusive)
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{
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auto item = adopt_ref(*new IntrusiveNonnullRefPtrTest());
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EXPECT_EQ(1u, item->ref_count());
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IntrusiveNonnullRefPtrRBTree nonnull_ref_tree;
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nonnull_ref_tree.insert(0, *item);
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EXPECT_EQ(2u, item->ref_count());
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EXPECT(!nonnull_ref_tree.is_empty());
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nonnull_ref_tree.remove(0);
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EXPECT_EQ(1u, item->ref_count());
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EXPECT(nonnull_ref_tree.is_empty());
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}
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