ClickHouse/src/Common/tests/gtest_interval_tree.cpp

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#include <gtest/gtest.h>
#include <set>
#include <map>
#include <base/types.h>
#include <Common/IntervalTree.h>
using namespace DB;
using Int64Interval = Interval<Int64>;
template <typename IntervalType>
std::set<IntervalType> intervalSetToSet(const IntervalSet<IntervalType> & interval_set)
{
std::set<IntervalType> result;
for (const auto & interval : interval_set)
result.insert(interval);
return result;
}
template <typename IntervalType, typename Value>
std::map<IntervalType, Value> intervalMapToMap(const IntervalMap<IntervalType, Value> & interval_map)
{
std::map<IntervalType, Value> result;
for (const auto & [interval, value] : interval_map)
result.emplace(interval, value);
return result;
}
template <typename IntervalType>
struct CollectIntervalsSetCallback
{
explicit CollectIntervalsSetCallback(std::set<IntervalType> & result_intervals_)
: result_intervals(result_intervals_)
{
}
bool operator()(IntervalType interval)
{
result_intervals.insert(interval);
return true;
}
std::set<IntervalType> & result_intervals;
};
using CollectIntervalsSetInt64Callback = CollectIntervalsSetCallback<Int64Interval>;
template <typename IntervalType>
std::set<IntervalType> intervalSetFindIntervals(const IntervalSet<IntervalType> & interval_set, typename IntervalType::IntervalStorageType point)
{
std::set<IntervalType> result;
CollectIntervalsSetCallback<IntervalType> callback(result);
interval_set.find(point, callback);
return result;
}
template <typename IntervalType, typename Value>
struct CollectIntervalsMapCallback
{
explicit CollectIntervalsMapCallback(std::map<IntervalType, Value> & result_intervals_)
: result_intervals(result_intervals_)
{
}
bool operator()(IntervalType interval, const Value & value)
{
result_intervals.emplace(interval, value);
return true;
}
std::map<IntervalType, Value> & result_intervals;
};
template <typename IntervalType, typename Value>
std::map<IntervalType, Value> intervalMapFindIntervals(const IntervalMap<IntervalType, Value> & interval_set, typename IntervalType::IntervalStorageType point)
{
std::map<IntervalType, Value> result;
CollectIntervalsMapCallback callback(result);
interval_set.find(point, callback);
return result;
}
TEST(IntervalTree, IntervalSetBasic)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::set<Int64Interval> expected;
IntervalSet<Int64Interval> set;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index * 2, interval_index * 2 + 1);
expected.insert(interval);
set.insert(interval);
}
ASSERT_TRUE(set.getIntervalsSize() == expected.size());
ASSERT_TRUE(set.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
std::set<Int64Interval> expected_intervals = {{expected_interval}};
auto actual_intervals = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalSetFindIntervals(set, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
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set.build();
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ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
auto actual_interval = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_interval.size() == 1);
ASSERT_TRUE(actual_interval == std::set<Int64Interval>{expected_interval});
actual_interval = intervalSetFindIntervals(set, expected_interval.right);
ASSERT_TRUE(actual_interval.size() == 1);
ASSERT_TRUE(actual_interval == std::set<Int64Interval>{expected_interval});
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalSetPoints)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::set<Int64Interval> expected;
IntervalSet<Int64Interval> set;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index, interval_index);
expected.insert(interval);
set.insert(interval);
}
ASSERT_TRUE(set.getIntervalsSize() == expected.size());
ASSERT_TRUE(set.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
std::set<Int64Interval> expected_intervals = {{expected_interval}};
auto actual_intervals = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalSetFindIntervals(set, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
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set.build();
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ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
auto actual_interval = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_interval.size() == 1);
ASSERT_TRUE(actual_interval == std::set<Int64Interval>{expected_interval});
actual_interval = intervalSetFindIntervals(set, expected_interval.right);
ASSERT_TRUE(actual_interval.size() == 1);
ASSERT_TRUE(actual_interval == std::set<Int64Interval>{expected_interval});
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalSetIntersectingIntervals)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::set<Int64Interval> expected;
IntervalSet<Int64Interval> set;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(0, interval_index * 2 + 1);
expected.insert(interval);
set.insert(interval);
}
ASSERT_TRUE(set.getIntervalsSize() == expected.size());
ASSERT_TRUE(set.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
auto actual_intervals = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == expected.size());
ASSERT_TRUE(actual_intervals == expected);
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
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set.build();
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ASSERT_TRUE(intervalSetToSet(set) == expected);
for (const auto & expected_interval : expected)
{
auto actual_intervals = intervalSetFindIntervals(set, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == expected.size());
ASSERT_TRUE(actual_intervals == expected);
ASSERT_TRUE(set.has(expected_interval.left));
ASSERT_TRUE(set.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalSetIterators)
{
{
IntervalSet<Int64Interval> set;
ASSERT_TRUE(set.begin() == set.end());
ASSERT_TRUE(set.cbegin() == set.cend());
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set.build();
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ASSERT_TRUE(set.begin() == set.end());
ASSERT_TRUE(set.cbegin() == set.cend());
}
{
IntervalSet<Int64Interval> set;
set.emplace(Int64Interval(0, 5));
ASSERT_TRUE(set.begin() != set.end());
ASSERT_TRUE((*set.begin()).left == 0);
ASSERT_TRUE((*set.begin()).right == 5);
ASSERT_TRUE(set.begin()->left == 0);
ASSERT_TRUE(set.begin()->right == 5);
auto begin = set.begin();
++begin;
ASSERT_TRUE(begin == set.end());
begin = set.begin();
begin++;
ASSERT_TRUE(begin == set.end());
auto end = set.end();
--end;
ASSERT_TRUE(set.begin() == end);
end = set.end();
end--;
ASSERT_TRUE(set.begin() == end);
}
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::set<Int64Interval> expected;
IntervalSet<Int64Interval> set;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index * 2, interval_index * 2 + 1);
set.insert(interval);
expected.insert(interval);
}
auto end = set.end();
auto begin = set.begin();
std::set<Int64Interval> actual;
while (end != begin)
{
--end;
actual.insert(*end);
}
if (end != begin)
actual.insert(*end);
ASSERT_TRUE(actual == expected);
}
}
}
TEST(IntervalTree, IntervalSetInvalidInterval)
{
IntervalSet<Int64Interval> interval_set;
ASSERT_TRUE(!interval_set.insert(Int64Interval(10, 0)));
ASSERT_TRUE(!interval_set.insert(Int64Interval(15, 10)));
ASSERT_TRUE(interval_set.insert(Int64Interval(20, 25)));
std::set<Int64Interval> expected;
expected.insert({20, 25});
auto actual = intervalSetFindIntervals(interval_set, 20);
ASSERT_TRUE(actual == expected);
ASSERT_TRUE(interval_set.has(20));
interval_set.build();
actual = intervalSetFindIntervals(interval_set, 20);
ASSERT_TRUE(actual == expected);
ASSERT_TRUE(interval_set.has(20));
}
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TEST(IntervalTree, IntervalMapBasic)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::map<Int64Interval, std::string> expected;
IntervalMap<Int64Interval, std::string> map;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index * 2, interval_index * 2 + 1);
auto value = std::to_string(interval.left);
expected.emplace(interval, value);
map.emplace(interval, value);
}
ASSERT_TRUE(map.getIntervalsSize() == expected.size());
ASSERT_TRUE(map.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
std::map<Int64Interval, std::string> expected_intervals = {{expected_interval, std::to_string(expected_interval.left)}};
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalMapFindIntervals(map, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
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map.build();
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ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
std::map<Int64Interval, std::string> expected_intervals = {{expected_interval, std::to_string(expected_interval.left)}};
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalMapFindIntervals(map, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalMapPoints)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::map<Int64Interval, std::string> expected;
IntervalMap<Int64Interval, std::string> map;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index, interval_index);
auto value = std::to_string(interval.left);
expected.emplace(interval, value);
map.emplace(interval, value);
}
ASSERT_TRUE(map.getIntervalsSize() == expected.size());
ASSERT_TRUE(map.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
std::map<Int64Interval, std::string> expected_intervals = {{expected_interval, std::to_string(expected_interval.left)}};
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalMapFindIntervals(map, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
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map.build();
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ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
std::map<Int64Interval, std::string> expected_intervals = {{expected_interval, std::to_string(expected_interval.left)}};
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
actual_intervals = intervalMapFindIntervals(map, expected_interval.right);
ASSERT_TRUE(actual_intervals.size() == 1);
ASSERT_TRUE(actual_intervals == expected_intervals);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalMapIntersectingIntervals)
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::map<Int64Interval, std::string> expected;
IntervalMap<Int64Interval, std::string> map;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(0, interval_index * 2 + 1);
auto value = std::to_string(interval.left);
expected.emplace(interval, value);
map.emplace(interval, value);
}
ASSERT_TRUE(map.getIntervalsSize() == expected.size());
ASSERT_TRUE(map.getIntervalsSize() == intervals_size);
ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == expected.size());
ASSERT_TRUE(actual_intervals == expected);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
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map.build();
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ASSERT_TRUE(intervalMapToMap(map) == expected);
for (const auto & [expected_interval, value] : expected)
{
auto actual_intervals = intervalMapFindIntervals(map, expected_interval.left);
ASSERT_TRUE(actual_intervals.size() == expected.size());
ASSERT_TRUE(actual_intervals == expected);
ASSERT_TRUE(map.has(expected_interval.left));
ASSERT_TRUE(map.has(expected_interval.right));
}
}
}
TEST(IntervalTree, IntervalMapIterators)
{
{
IntervalMap<Int64Interval, std::string> map;
ASSERT_TRUE(map.begin() == map.end());
ASSERT_TRUE(map.cbegin() == map.cend());
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map.build();
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ASSERT_TRUE(map.begin() == map.end());
ASSERT_TRUE(map.cbegin() == map.cend());
}
{
IntervalMap<Int64Interval, std::string> map;
map.emplace(Int64Interval(0, 5), "value");
ASSERT_TRUE(map.begin() != map.end());
ASSERT_TRUE((*map.begin()).first.left == 0);
ASSERT_TRUE((*map.begin()).first.right == 5);
ASSERT_TRUE((*map.begin()).second == "value");
ASSERT_TRUE(map.begin()->first.left == 0);
ASSERT_TRUE(map.begin()->first.right == 5);
ASSERT_TRUE(map.begin()->second == "value");
auto begin = map.begin();
++begin;
ASSERT_TRUE(begin == map.end());
begin = map.begin();
begin++;
ASSERT_TRUE(begin == map.end());
auto end = map.end();
--end;
ASSERT_TRUE(map.begin() == end);
end = map.end();
end--;
ASSERT_TRUE(map.begin() == end);
}
{
for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
{
std::map<Int64Interval, std::string> expected;
IntervalMap<Int64Interval, std::string> map;
for (size_t interval_index = 0; interval_index < intervals_size; ++interval_index)
{
auto interval = Int64Interval(interval_index * 2, interval_index * 2 + 1);
auto value = std::to_string(interval.left);
map.emplace(interval, value);
expected.emplace(interval, value);
}
auto end = map.end();
auto begin = map.begin();
std::map<Int64Interval, std::string> actual;
while (end != begin)
{
--end;
actual.insert(*end);
}
if (end != begin)
actual.insert(*end);
ASSERT_TRUE(actual == expected);
}
}
}
TEST(IntervalTree, IntervalMapInvalidInterval)
{
IntervalMap<Int64Interval, std::string> interval_map;
ASSERT_TRUE(!interval_map.insert(Int64Interval(10, 0), "Value"));
ASSERT_TRUE(!interval_map.insert(Int64Interval(15, 10), "Value"));
ASSERT_TRUE(interval_map.insert(Int64Interval(20, 25), "Value"));
std::map<Int64Interval, std::string> expected;
expected.emplace(Int64Interval{20, 25}, "Value");
auto actual = intervalMapFindIntervals(interval_map, 20);
ASSERT_TRUE(actual == expected);
ASSERT_TRUE(interval_map.has(20));
interval_map.build();
actual = intervalMapFindIntervals(interval_map, 20);
ASSERT_TRUE(actual == expected);
ASSERT_TRUE(interval_map.has(20));
}