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558 lines
20 KiB
C++
558 lines
20 KiB
C++
#pragma once
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#include <Common/HashTable/HashTable.h>
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#include <Common/HashTable/HashTableKeyHolder.h>
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#include <Common/ColumnsHashingImpl.h>
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#include <Common/Arena.h>
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#include <Common/LRUCache.h>
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#include <Common/assert_cast.h>
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#include <common/unaligned.h>
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#include <Columns/ColumnString.h>
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#include <Columns/ColumnFixedString.h>
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#include <Columns/ColumnLowCardinality.h>
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#include <Core/Defines.h>
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#include <memory>
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namespace DB
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{
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namespace ColumnsHashing
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{
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/// For the case when there is one numeric key.
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/// UInt8/16/32/64 for any type with corresponding bit width.
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template <typename Value, typename Mapped, typename FieldType, bool use_cache = true>
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struct HashMethodOneNumber
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: public columns_hashing_impl::HashMethodBase<HashMethodOneNumber<Value, Mapped, FieldType, use_cache>, Value, Mapped, use_cache>
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{
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using Self = HashMethodOneNumber<Value, Mapped, FieldType, use_cache>;
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using Base = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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const char * vec;
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/// If the keys of a fixed length then key_sizes contains their lengths, empty otherwise.
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HashMethodOneNumber(const ColumnRawPtrs & key_columns, const Sizes & /*key_sizes*/, const HashMethodContextPtr &)
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{
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vec = key_columns[0]->getRawData().data;
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}
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HashMethodOneNumber(const IColumn * column)
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{
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vec = column->getRawData().data;
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}
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/// Creates context. Method is called once and result context is used in all threads.
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using Base::createContext; /// (const HashMethodContext::Settings &) -> HashMethodContextPtr
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/// Emplace key into HashTable or HashMap. If Data is HashMap, returns ptr to value, otherwise nullptr.
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/// Data is a HashTable where to insert key from column's row.
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/// For Serialized method, key may be placed in pool.
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using Base::emplaceKey; /// (Data & data, size_t row, Arena & pool) -> EmplaceResult
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/// Find key into HashTable or HashMap. If Data is HashMap and key was found, returns ptr to value, otherwise nullptr.
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using Base::findKey; /// (Data & data, size_t row, Arena & pool) -> FindResult
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/// Get hash value of row.
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using Base::getHash; /// (const Data & data, size_t row, Arena & pool) -> size_t
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/// Is used for default implementation in HashMethodBase.
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FieldType getKeyHolder(size_t row, Arena &) const { return unalignedLoad<FieldType>(vec + row * sizeof(FieldType)); }
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};
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/// For the case when there is one string key.
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template <typename Value, typename Mapped, bool place_string_to_arena = true, bool use_cache = true>
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struct HashMethodString
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: public columns_hashing_impl::HashMethodBase<HashMethodString<Value, Mapped, place_string_to_arena, use_cache>, Value, Mapped, use_cache>
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{
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using Self = HashMethodString<Value, Mapped, place_string_to_arena, use_cache>;
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using Base = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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const IColumn::Offset * offsets;
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const UInt8 * chars;
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HashMethodString(const ColumnRawPtrs & key_columns, const Sizes & /*key_sizes*/, const HashMethodContextPtr &)
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{
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const IColumn & column = *key_columns[0];
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const ColumnString & column_string = assert_cast<const ColumnString &>(column);
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offsets = column_string.getOffsets().data();
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chars = column_string.getChars().data();
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}
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auto getKeyHolder(ssize_t row, [[maybe_unused]] Arena & pool) const
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{
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StringRef key(chars + offsets[row - 1], offsets[row] - offsets[row - 1] - 1);
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if constexpr (place_string_to_arena)
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{
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return ArenaKeyHolder{key, pool};
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}
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else
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{
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return key;
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}
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}
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protected:
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friend class columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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};
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/// For the case when there is one fixed-length string key.
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template <typename Value, typename Mapped, bool place_string_to_arena = true, bool use_cache = true>
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struct HashMethodFixedString
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: public columns_hashing_impl::HashMethodBase<HashMethodFixedString<Value, Mapped, place_string_to_arena, use_cache>, Value, Mapped, use_cache>
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{
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using Self = HashMethodFixedString<Value, Mapped, place_string_to_arena, use_cache>;
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using Base = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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size_t n;
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const ColumnFixedString::Chars * chars;
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HashMethodFixedString(const ColumnRawPtrs & key_columns, const Sizes & /*key_sizes*/, const HashMethodContextPtr &)
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{
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const IColumn & column = *key_columns[0];
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const ColumnFixedString & column_string = assert_cast<const ColumnFixedString &>(column);
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n = column_string.getN();
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chars = &column_string.getChars();
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}
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auto getKeyHolder(size_t row, [[maybe_unused]] Arena & pool) const
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{
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StringRef key(&(*chars)[row * n], n);
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if constexpr (place_string_to_arena)
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{
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return ArenaKeyHolder{key, pool};
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}
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else
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{
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return key;
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}
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}
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protected:
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friend class columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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};
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/// Cache stores dictionaries and saved_hash per dictionary key.
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class LowCardinalityDictionaryCache : public HashMethodContext
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{
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public:
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/// Will assume that dictionaries with same hash has the same keys.
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/// Just in case, check that they have also the same size.
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struct DictionaryKey
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{
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UInt128 hash;
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UInt64 size;
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bool operator== (const DictionaryKey & other) const { return hash == other.hash && size == other.size; }
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};
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struct DictionaryKeyHash
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{
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size_t operator()(const DictionaryKey & key) const
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{
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SipHash hash;
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hash.update(key.hash.low);
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hash.update(key.hash.high);
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hash.update(key.size);
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return hash.get64();
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}
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};
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struct CachedValues
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{
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/// Store ptr to dictionary to be sure it won't be deleted.
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ColumnPtr dictionary_holder;
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/// Hashes for dictionary keys.
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const UInt64 * saved_hash = nullptr;
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};
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using CachedValuesPtr = std::shared_ptr<CachedValues>;
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explicit LowCardinalityDictionaryCache(const HashMethodContext::Settings & settings) : cache(settings.max_threads) {}
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CachedValuesPtr get(const DictionaryKey & key) { return cache.get(key); }
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void set(const DictionaryKey & key, const CachedValuesPtr & mapped) { cache.set(key, mapped); }
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private:
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using Cache = LRUCache<DictionaryKey, CachedValues, DictionaryKeyHash>;
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Cache cache;
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};
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/// Single low cardinality column.
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template <typename SingleColumnMethod, typename Mapped, bool use_cache>
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struct HashMethodSingleLowCardinalityColumn : public SingleColumnMethod
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{
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using Base = SingleColumnMethod;
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enum class VisitValue
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{
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Empty = 0,
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Found = 1,
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NotFound = 2,
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};
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static constexpr bool has_mapped = !std::is_same<Mapped, void>::value;
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using EmplaceResult = columns_hashing_impl::EmplaceResultImpl<Mapped>;
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using FindResult = columns_hashing_impl::FindResultImpl<Mapped>;
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static HashMethodContextPtr createContext(const HashMethodContext::Settings & settings)
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{
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return std::make_shared<LowCardinalityDictionaryCache>(settings);
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}
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ColumnRawPtrs key_columns;
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const IColumn * positions = nullptr;
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size_t size_of_index_type = 0;
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/// saved hash is from current column or from cache.
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const UInt64 * saved_hash = nullptr;
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/// Hold dictionary in case saved_hash is from cache to be sure it won't be deleted.
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ColumnPtr dictionary_holder;
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/// Cache AggregateDataPtr for current column in order to decrease the number of hash table usages.
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columns_hashing_impl::MappedCache<Mapped> mapped_cache;
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PaddedPODArray<VisitValue> visit_cache;
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/// If initialized column is nullable.
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bool is_nullable = false;
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static const ColumnLowCardinality & getLowCardinalityColumn(const IColumn * low_cardinality_column)
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{
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auto column = typeid_cast<const ColumnLowCardinality *>(low_cardinality_column);
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if (!column)
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throw Exception("Invalid aggregation key type for HashMethodSingleLowCardinalityColumn method. "
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"Excepted LowCardinality, got " + column->getName(), ErrorCodes::LOGICAL_ERROR);
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return *column;
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}
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HashMethodSingleLowCardinalityColumn(
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const ColumnRawPtrs & key_columns_low_cardinality, const Sizes & key_sizes, const HashMethodContextPtr & context)
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: Base({getLowCardinalityColumn(key_columns_low_cardinality[0]).getDictionary().getNestedNotNullableColumn().get()}, key_sizes, context)
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{
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auto column = &getLowCardinalityColumn(key_columns_low_cardinality[0]);
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if (!context)
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throw Exception("Cache wasn't created for HashMethodSingleLowCardinalityColumn",
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ErrorCodes::LOGICAL_ERROR);
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LowCardinalityDictionaryCache * lcd_cache;
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if constexpr (use_cache)
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{
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lcd_cache = typeid_cast<LowCardinalityDictionaryCache *>(context.get());
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if (!lcd_cache)
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{
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const auto & cached_val = *context;
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throw Exception("Invalid type for HashMethodSingleLowCardinalityColumn cache: "
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+ demangle(typeid(cached_val).name()), ErrorCodes::LOGICAL_ERROR);
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}
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}
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auto * dict = column->getDictionary().getNestedNotNullableColumn().get();
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is_nullable = column->getDictionary().nestedColumnIsNullable();
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key_columns = {dict};
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bool is_shared_dict = column->isSharedDictionary();
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typename LowCardinalityDictionaryCache::DictionaryKey dictionary_key;
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typename LowCardinalityDictionaryCache::CachedValuesPtr cached_values;
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if (is_shared_dict)
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{
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dictionary_key = {column->getDictionary().getHash(), dict->size()};
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if constexpr (use_cache)
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cached_values = lcd_cache->get(dictionary_key);
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}
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if (cached_values)
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{
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saved_hash = cached_values->saved_hash;
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dictionary_holder = cached_values->dictionary_holder;
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}
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else
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{
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saved_hash = column->getDictionary().tryGetSavedHash();
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dictionary_holder = column->getDictionaryPtr();
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if constexpr (use_cache)
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{
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if (is_shared_dict)
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{
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cached_values = std::make_shared<typename LowCardinalityDictionaryCache::CachedValues>();
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cached_values->saved_hash = saved_hash;
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cached_values->dictionary_holder = dictionary_holder;
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lcd_cache->set(dictionary_key, cached_values);
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}
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}
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}
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if constexpr (has_mapped)
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mapped_cache.resize(key_columns[0]->size());
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VisitValue empty(VisitValue::Empty);
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visit_cache.assign(key_columns[0]->size(), empty);
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size_of_index_type = column->getSizeOfIndexType();
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positions = column->getIndexesPtr().get();
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}
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ALWAYS_INLINE size_t getIndexAt(size_t row) const
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{
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switch (size_of_index_type)
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{
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case sizeof(UInt8): return assert_cast<const ColumnUInt8 *>(positions)->getElement(row);
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case sizeof(UInt16): return assert_cast<const ColumnUInt16 *>(positions)->getElement(row);
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case sizeof(UInt32): return assert_cast<const ColumnUInt32 *>(positions)->getElement(row);
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case sizeof(UInt64): return assert_cast<const ColumnUInt64 *>(positions)->getElement(row);
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default: throw Exception("Unexpected size of index type for low cardinality column.", ErrorCodes::LOGICAL_ERROR);
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}
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}
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/// Get the key holder from the key columns for insertion into the hash table.
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ALWAYS_INLINE auto getKeyHolder(size_t row, Arena & pool) const
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{
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return Base::getKeyHolder(getIndexAt(row), pool);
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}
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template <typename Data>
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ALWAYS_INLINE EmplaceResult emplaceKey(Data & data, size_t row_, Arena & pool)
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{
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size_t row = getIndexAt(row_);
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if (is_nullable && row == 0)
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{
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visit_cache[row] = VisitValue::Found;
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bool has_null_key = data.hasNullKeyData();
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data.hasNullKeyData() = true;
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if constexpr (has_mapped)
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return EmplaceResult(data.getNullKeyData(), mapped_cache[0], !has_null_key);
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else
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return EmplaceResult(!has_null_key);
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}
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if (visit_cache[row] == VisitValue::Found)
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{
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if constexpr (has_mapped)
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return EmplaceResult(mapped_cache[row], mapped_cache[row], false);
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else
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return EmplaceResult(false);
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}
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auto key_holder = getKeyHolder(row_, pool);
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bool inserted = false;
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typename Data::LookupResult it;
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if (saved_hash)
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data.emplace(key_holder, it, inserted, saved_hash[row]);
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else
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data.emplace(key_holder, it, inserted);
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visit_cache[row] = VisitValue::Found;
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if constexpr (has_mapped)
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{
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auto & mapped = it->getMapped();
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if (inserted)
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{
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new (&mapped) Mapped();
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}
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mapped_cache[row] = mapped;
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return EmplaceResult(mapped, mapped_cache[row], inserted);
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}
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else
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return EmplaceResult(inserted);
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}
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ALWAYS_INLINE bool isNullAt(size_t i)
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{
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if (!is_nullable)
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return false;
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return getIndexAt(i) == 0;
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}
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template <typename Data>
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ALWAYS_INLINE FindResult findFromRow(Data & data, size_t row_, Arena & pool)
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{
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size_t row = getIndexAt(row_);
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if (is_nullable && row == 0)
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{
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if constexpr (has_mapped)
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return FindResult(data.hasNullKeyData() ? &data.getNullKeyData() : nullptr, data.hasNullKeyData());
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else
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return FindResult(data.hasNullKeyData());
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}
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if (visit_cache[row] != VisitValue::Empty)
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{
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if constexpr (has_mapped)
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return FindResult(&mapped_cache[row], visit_cache[row] == VisitValue::Found);
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else
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return FindResult(visit_cache[row] == VisitValue::Found);
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}
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auto key_holder = getKeyHolder(row_, pool);
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typename Data::iterator it;
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if (saved_hash)
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it = data.find(*key_holder, saved_hash[row]);
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else
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it = data.find(*key_holder);
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bool found = it != data.end();
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visit_cache[row] = found ? VisitValue::Found : VisitValue::NotFound;
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if constexpr (has_mapped)
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{
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if (found)
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mapped_cache[row] = it->second;
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}
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if constexpr (has_mapped)
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return FindResult(&mapped_cache[row], found);
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else
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return FindResult(found);
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}
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template <typename Data>
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ALWAYS_INLINE size_t getHash(const Data & data, size_t row, Arena & pool)
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{
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row = getIndexAt(row);
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if (saved_hash)
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return saved_hash[row];
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return Base::getHash(data, row, pool);
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}
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};
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// Optional mask for low cardinality columns.
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template <bool has_low_cardinality>
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struct LowCardinalityKeys
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{
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ColumnRawPtrs nested_columns;
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ColumnRawPtrs positions;
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Sizes position_sizes;
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};
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template <>
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struct LowCardinalityKeys<false> {};
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/// For the case when all keys are of fixed length, and they fit in N (for example, 128) bits.
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template <typename Value, typename Key, typename Mapped, bool has_nullable_keys_ = false, bool has_low_cardinality_ = false, bool use_cache = true>
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struct HashMethodKeysFixed
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: private columns_hashing_impl::BaseStateKeysFixed<Key, has_nullable_keys_>
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, public columns_hashing_impl::HashMethodBase<HashMethodKeysFixed<Value, Key, Mapped, has_nullable_keys_, has_low_cardinality_, use_cache>, Value, Mapped, use_cache>
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{
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using Self = HashMethodKeysFixed<Value, Key, Mapped, has_nullable_keys_, has_low_cardinality_, use_cache>;
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using BaseHashed = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
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using Base = columns_hashing_impl::BaseStateKeysFixed<Key, has_nullable_keys_>;
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static constexpr bool has_nullable_keys = has_nullable_keys_;
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static constexpr bool has_low_cardinality = has_low_cardinality_;
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LowCardinalityKeys<has_low_cardinality> low_cardinality_keys;
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Sizes key_sizes;
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size_t keys_size;
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HashMethodKeysFixed(const ColumnRawPtrs & key_columns, const Sizes & key_sizes_, const HashMethodContextPtr &)
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: Base(key_columns), key_sizes(std::move(key_sizes_)), keys_size(key_columns.size())
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{
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if constexpr (has_low_cardinality)
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{
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low_cardinality_keys.nested_columns.resize(key_columns.size());
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low_cardinality_keys.positions.assign(key_columns.size(), nullptr);
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low_cardinality_keys.position_sizes.resize(key_columns.size());
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for (size_t i = 0; i < key_columns.size(); ++i)
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{
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if (auto * low_cardinality_col = typeid_cast<const ColumnLowCardinality *>(key_columns[i]))
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{
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low_cardinality_keys.nested_columns[i] = low_cardinality_col->getDictionary().getNestedColumn().get();
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low_cardinality_keys.positions[i] = &low_cardinality_col->getIndexes();
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low_cardinality_keys.position_sizes[i] = low_cardinality_col->getSizeOfIndexType();
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}
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else
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low_cardinality_keys.nested_columns[i] = key_columns[i];
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}
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}
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}
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ALWAYS_INLINE Key getKeyHolder(size_t row, Arena &) const
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{
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if constexpr (has_nullable_keys)
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{
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auto bitmap = Base::createBitmap(row);
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return packFixed<Key>(row, keys_size, Base::getActualColumns(), key_sizes, bitmap);
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}
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else
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{
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if constexpr (has_low_cardinality)
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return packFixed<Key, true>(row, keys_size, low_cardinality_keys.nested_columns, key_sizes,
|
|
&low_cardinality_keys.positions, &low_cardinality_keys.position_sizes);
|
|
|
|
return packFixed<Key>(row, keys_size, Base::getActualColumns(), key_sizes);
|
|
}
|
|
}
|
|
};
|
|
|
|
/** Hash by concatenating serialized key values.
|
|
* The serialized value differs in that it uniquely allows to deserialize it, having only the position with which it starts.
|
|
* That is, for example, for strings, it contains first the serialized length of the string, and then the bytes.
|
|
* Therefore, when aggregating by several strings, there is no ambiguity.
|
|
*/
|
|
template <typename Value, typename Mapped>
|
|
struct HashMethodSerialized
|
|
: public columns_hashing_impl::HashMethodBase<HashMethodSerialized<Value, Mapped>, Value, Mapped, false>
|
|
{
|
|
using Self = HashMethodSerialized<Value, Mapped>;
|
|
using Base = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, false>;
|
|
|
|
ColumnRawPtrs key_columns;
|
|
size_t keys_size;
|
|
|
|
HashMethodSerialized(const ColumnRawPtrs & key_columns_, const Sizes & /*key_sizes*/, const HashMethodContextPtr &)
|
|
: key_columns(key_columns_), keys_size(key_columns_.size()) {}
|
|
|
|
protected:
|
|
friend class columns_hashing_impl::HashMethodBase<Self, Value, Mapped, false>;
|
|
|
|
ALWAYS_INLINE SerializedKeyHolder getKeyHolder(size_t row, Arena & pool) const
|
|
{
|
|
return SerializedKeyHolder{
|
|
serializeKeysToPoolContiguous(row, keys_size, key_columns, pool),
|
|
pool};
|
|
}
|
|
};
|
|
|
|
/// For the case when there is one string key.
|
|
template <typename Value, typename Mapped, bool use_cache = true>
|
|
struct HashMethodHashed
|
|
: public columns_hashing_impl::HashMethodBase<HashMethodHashed<Value, Mapped, use_cache>, Value, Mapped, use_cache>
|
|
{
|
|
using Key = UInt128;
|
|
using Self = HashMethodHashed<Value, Mapped, use_cache>;
|
|
using Base = columns_hashing_impl::HashMethodBase<Self, Value, Mapped, use_cache>;
|
|
|
|
ColumnRawPtrs key_columns;
|
|
|
|
HashMethodHashed(ColumnRawPtrs key_columns_, const Sizes &, const HashMethodContextPtr &)
|
|
: key_columns(std::move(key_columns_)) {}
|
|
|
|
ALWAYS_INLINE Key getKeyHolder(size_t row, Arena &) const
|
|
{
|
|
return hash128(row, key_columns.size(), key_columns);
|
|
}
|
|
};
|
|
|
|
}
|
|
}
|