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Merge pull request #33827 from kitaisreal/range-hashed-dictionary-handle-invalid-intervals
RangeHashedDictionary handle invalid intervals
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commit
502c1637d5
@ -10,6 +10,7 @@ namespace DB
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{
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/** Structure that holds closed interval with left and right.
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* Interval left must be less than interval right.
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* Example: [1, 1] is valid interval, that contain point 1.
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*/
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template <typename TIntervalStorageType>
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@ -70,6 +71,9 @@ struct IntervalTreeVoidValue
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* Search for all intervals intersecting point has complexity O(log(n) + k), k is count of intervals that intersect point.
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* If we need to only check if there are some interval intersecting point such operation has complexity O(log(n)).
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*
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* There is invariant that interval left must be less than interval right, otherwise such interval could not contain any point.
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* If that invariant is broken, inserting such interval in IntervalTree will return false.
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*
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* Explanation:
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*
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* IntervalTree structure is balanced tree. Each node contains:
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@ -125,44 +129,48 @@ public:
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IntervalTree() { nodes.resize(1); }
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template <typename TValue = Value, std::enable_if_t<std::is_same_v<TValue, IntervalTreeVoidValue>, bool> = true>
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void emplace(Interval interval)
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ALWAYS_INLINE bool emplace(Interval interval)
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{
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assert(!tree_is_built);
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if (unlikely(interval.left > interval.right))
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return false;
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sorted_intervals.emplace_back(interval);
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increaseIntervalsSize();
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return true;
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}
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template <typename TValue = Value, std::enable_if_t<!std::is_same_v<TValue, IntervalTreeVoidValue>, bool> = true, typename... Args>
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void emplace(Interval interval, Args &&... args)
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ALWAYS_INLINE bool emplace(Interval interval, Args &&... args)
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{
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assert(!tree_is_built);
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if (unlikely(interval.left > interval.right))
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return false;
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sorted_intervals.emplace_back(
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std::piecewise_construct, std::forward_as_tuple(interval), std::forward_as_tuple(std::forward<Args>(args)...));
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increaseIntervalsSize();
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return true;
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}
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template <typename TValue = Value, std::enable_if_t<std::is_same_v<TValue, IntervalTreeVoidValue>, bool> = true>
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void insert(Interval interval)
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bool insert(Interval interval)
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{
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assert(!tree_is_built);
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sorted_intervals.emplace_back(interval);
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increaseIntervalsSize();
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return emplace(interval);
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}
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template <typename TValue = Value, std::enable_if_t<!std::is_same_v<TValue, IntervalTreeVoidValue>, bool> = true>
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void insert(Interval interval, const Value & value)
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bool insert(Interval interval, const Value & value)
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{
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assert(!tree_is_built);
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sorted_intervals.emplace_back(interval, value);
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increaseIntervalsSize();
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return emplace(interval, value);
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}
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template <typename TValue = Value, std::enable_if_t<!std::is_same_v<TValue, IntervalTreeVoidValue>, bool> = true>
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void insert(Interval interval, Value && value)
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bool insert(Interval interval, Value && value)
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{
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assert(!tree_is_built);
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sorted_intervals.emplace_back(interval, std::move(value));
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increaseIntervalsSize();
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return emplace(interval, std::move(value));
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}
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/// Build tree, after that intervals cannot be inserted, and only search or iteration can be performed.
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@ -309,6 +309,29 @@ TEST(IntervalTree, IntervalSetIterators)
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}
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}
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TEST(IntervalTree, IntervalSetInvalidInterval)
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{
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IntervalSet<Int64Interval> interval_set;
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ASSERT_TRUE(!interval_set.insert(Int64Interval(10, 0)));
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ASSERT_TRUE(!interval_set.insert(Int64Interval(15, 10)));
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ASSERT_TRUE(interval_set.insert(Int64Interval(20, 25)));
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std::set<Int64Interval> expected;
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expected.insert({20, 25});
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auto actual = intervalSetFindIntervals(interval_set, 20);
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ASSERT_TRUE(actual == expected);
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ASSERT_TRUE(interval_set.has(20));
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interval_set.build();
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actual = intervalSetFindIntervals(interval_set, 20);
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ASSERT_TRUE(actual == expected);
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ASSERT_TRUE(interval_set.has(20));
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}
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TEST(IntervalTree, IntervalMapBasic)
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{
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for (size_t intervals_size = 0; intervals_size < 120; ++intervals_size)
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@ -538,3 +561,26 @@ TEST(IntervalTree, IntervalMapIterators)
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}
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}
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}
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TEST(IntervalTree, IntervalMapInvalidInterval)
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{
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IntervalMap<Int64Interval, std::string> interval_map;
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ASSERT_TRUE(!interval_map.insert(Int64Interval(10, 0), "Value"));
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ASSERT_TRUE(!interval_map.insert(Int64Interval(15, 10), "Value"));
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ASSERT_TRUE(interval_map.insert(Int64Interval(20, 25), "Value"));
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std::map<Int64Interval, std::string> expected;
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expected.emplace(Int64Interval{20, 25}, "Value");
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auto actual = intervalMapFindIntervals(interval_map, 20);
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ASSERT_TRUE(actual == expected);
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ASSERT_TRUE(interval_map.has(20));
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interval_map.build();
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actual = intervalMapFindIntervals(interval_map, 20);
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ASSERT_TRUE(actual == expected);
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ASSERT_TRUE(interval_map.has(20));
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}
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@ -537,7 +537,9 @@ void RangeHashedDictionary<dictionary_key_type>::blockToAttributes(const Block &
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if constexpr (std::is_same_v<KeyType, StringRef>)
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key = copyStringInArena(string_arena, key);
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if (likely(lower_bound <= upper_bound))
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setAttributeValue(attribute, key, RangeInterval{lower_bound, upper_bound}, attribute_column[key_index]);
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keys_extractor.rollbackCurrentKey();
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}
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@ -0,0 +1,5 @@
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Value
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DefaultValue
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1
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0
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0 15 20 Value
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@ -0,0 +1,36 @@
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DROP TABLE IF EXISTS 02179_test_table;
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CREATE TABLE 02179_test_table
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(
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id UInt64,
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value String,
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start Int64,
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end Int64
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) Engine = TinyLog;
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INSERT INTO 02179_test_table VALUES (0, 'Value', 10, 0);
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INSERT INTO 02179_test_table VALUES (0, 'Value', 15, 10);
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INSERT INTO 02179_test_table VALUES (0, 'Value', 15, 20);
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DROP DICTIONARY IF EXISTS 02179_test_dictionary;
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CREATE DICTIONARY 02179_test_dictionary
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(
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id UInt64,
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value String DEFAULT 'DefaultValue',
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start Int64,
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end Int64
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) PRIMARY KEY id
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LAYOUT(RANGE_HASHED())
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SOURCE(CLICKHOUSE(TABLE '02179_test_table'))
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RANGE(MIN start MAX end)
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LIFETIME(0);
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SELECT dictGet('02179_test_dictionary', 'value', 0, 15);
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SELECT dictGet('02179_test_dictionary', 'value', 0, 5);
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SELECT dictHas('02179_test_dictionary', 0, 15);
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SELECT dictHas('02179_test_dictionary', 0, 5);
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SELECT * FROM 02179_test_dictionary;
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DROP DICTIONARY 02179_test_dictionary;
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DROP TABLE 02179_test_table;
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