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ladybird/Tests/AK/TestIntrusiveRedBlackTree.cpp

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AK: Implement IntrusiveRedBlackTree container This container is similar to the RedBlackTree container, but instead of transparently allocating tree nodes on insertion and freeing on removal this container piggybacks on intrusive node fields in the stored class
2021-04-10 17:59:24 +03:00
/*
AK+Userland: Use idan.horowitz@serenityos.org for my copyright headers
2021-04-22 23:40:43 +03:00
* Copyright (c) 2021, Idan Horowitz <idan.horowitz@serenityos.org>
AK: Implement IntrusiveRedBlackTree container This container is similar to the RedBlackTree container, but instead of transparently allocating tree nodes on insertion and freeing on removal this container piggybacks on intrusive node fields in the stored class
2021-04-10 17:59:24 +03:00
*
Everything: Move to SPDX license identifiers in all files. SPDX License Identifiers are a more compact / standardized way of representing file license information. See: https://spdx.dev/resources/use/#identifiers This was done with the `ambr` search and replace tool. ambr --no-parent-ignore --key-from-file --rep-from-file key.txt rep.txt *
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* SPDX-License-Identifier: BSD-2-Clause
AK: Implement IntrusiveRedBlackTree container This container is similar to the RedBlackTree container, but instead of transparently allocating tree nodes on insertion and freeing on removal this container piggybacks on intrusive node fields in the stored class
2021-04-10 17:59:24 +03:00
*/
AK+Userland: Move AK/TestSuite.h into LibTest and rework Tests' CMake As many macros as possible are moved to Macros.h, while the macros to create a test case are moved to TestCase.h. TestCase is now the only user-facing header for creating a test case. TestSuite and its helpers have moved into a .cpp file. Instead of requiring a TEST_MAIN macro to be instantiated into the test file, a TestMain.cpp file is provided instead that will be linked against each test. This has the side effect that, if we wanted to have test cases split across multiple files, it's as simple as adding them all to the same executable. The test main should be portable to kernel mode as well, so if there's a set of tests that should be run in self-test mode in kernel space, we can accomodate that. A new serenity_test CMake function streamlines adding a new test with arguments for the test source file, subdirectory under /usr/Tests to install the test application and an optional list of libraries to link against the test application. To accomodate future test where the provided TestMain.cpp is not suitable (e.g. test-js), a CUSTOM_MAIN parameter can be passed to the function to not link against the boilerplate main function.
2021-04-25 08:53:23 +03:00
#include <LibTest/TestCase.h>
AK: Implement IntrusiveRedBlackTree container This container is similar to the RedBlackTree container, but instead of transparently allocating tree nodes on insertion and freeing on removal this container piggybacks on intrusive node fields in the stored class
2021-04-10 17:59:24 +03:00
#include <AK/IntrusiveRedBlackTree.h>
#include <AK/NonnullOwnPtrVector.h>
#include <AK/Random.h>
class IntrusiveTest {
public:
IntrusiveTest(int key, int value)
: m_tree_node(key)
, m_some_value(value)
{
}
IntrusiveRedBlackTreeNode<int> m_tree_node;
int m_some_value;
};
TEST_CASE(construct)
{
IntrusiveRedBlackTree<int, IntrusiveTest, &IntrusiveTest::m_tree_node> empty;
EXPECT(empty.is_empty());
EXPECT(empty.size() == 0);
}
TEST_CASE(ints)
{
IntrusiveRedBlackTree<int, IntrusiveTest, &IntrusiveTest::m_tree_node> test;
IntrusiveTest first { 1, 10 };
test.insert(first);
IntrusiveTest second { 3, 20 };
test.insert(second);
IntrusiveTest third { 2, 30 };
test.insert(third);
EXPECT_EQ(test.size(), 3u);
EXPECT_EQ(test.find(3)->m_some_value, 20);
EXPECT_EQ(test.find(2)->m_some_value, 30);
EXPECT_EQ(test.find(1)->m_some_value, 10);
EXPECT(!test.remove(4));
EXPECT(test.remove(2));
EXPECT(test.remove(1));
EXPECT(test.remove(3));
EXPECT_EQ(test.size(), 0u);
}
TEST_CASE(largest_smaller_than)
{
IntrusiveRedBlackTree<int, IntrusiveTest, &IntrusiveTest::m_tree_node> test;
IntrusiveTest first { 1, 10 };
test.insert(first);
IntrusiveTest second { 11, 20 };
test.insert(second);
IntrusiveTest third { 21, 30 };
test.insert(third);
EXPECT_EQ(test.size(), 3u);
EXPECT_EQ(test.find_largest_not_above(3)->m_some_value, 10);
EXPECT_EQ(test.find_largest_not_above(17)->m_some_value, 20);
EXPECT_EQ(test.find_largest_not_above(22)->m_some_value, 30);
EXPECT_EQ(test.find_largest_not_above(-5), nullptr);
VERIFY(test.remove(1));
VERIFY(test.remove(11));
VERIFY(test.remove(21));
}
TEST_CASE(key_ordered_iteration)
{
constexpr auto amount = 10000;
IntrusiveRedBlackTree<int, IntrusiveTest, &IntrusiveTest::m_tree_node> test;
NonnullOwnPtrVector<IntrusiveTest> m_entries;
Array<int, amount> keys {};
// generate random key order
for (int i = 0; i < amount; i++) {
keys[i] = i;
}
for (size_t i = 0; i < amount; i++) {
swap(keys[i], keys[get_random<size_t>() % amount]);
}
// insert random keys
for (size_t i = 0; i < amount; i++) {
auto entry = make<IntrusiveTest>(keys[i], keys[i]);
test.insert(*entry);
m_entries.append(move(entry));
}
// check key-ordered iteration
int index = 0;
for (auto& value : test) {
EXPECT(value.m_some_value == index++);
}
// ensure we can remove all of them (aka, tree structure is not destroyed somehow)
for (size_t i = 0; i < amount; i++) {
EXPECT(test.remove(i));
}
}
TEST_CASE(clear)
{
IntrusiveRedBlackTree<int, IntrusiveTest, &IntrusiveTest::m_tree_node> test;
NonnullOwnPtrVector<IntrusiveTest> m_entries;
for (size_t i = 0; i < 1000; i++) {
auto entry = make<IntrusiveTest>(i, i);
test.insert(*entry);
m_entries.append(move(entry));
}
test.clear();
EXPECT_EQ(test.size(), 0u);
}
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