#pragma once #include #include namespace DB { class DataTypeLowCardinality : public IDataType { private: DataTypePtr dictionary_type; public: explicit DataTypeLowCardinality(DataTypePtr dictionary_type_); const DataTypePtr & getDictionaryType() const { return dictionary_type; } String doGetName() const override { return "LowCardinality(" + dictionary_type->getName() + ")"; } const char * getFamilyName() const override { return "LowCardinality"; } TypeIndex getTypeId() const override { return TypeIndex::LowCardinality; } MutableColumnPtr createColumn() const override; Field getDefault() const override; bool equals(const IDataType & rhs) const override; bool isParametric() const override { return true; } bool haveSubtypes() const override { return true; } bool cannotBeStoredInTables() const override { return dictionary_type->cannotBeStoredInTables(); } bool shouldAlignRightInPrettyFormats() const override { return dictionary_type->shouldAlignRightInPrettyFormats(); } bool textCanContainOnlyValidUTF8() const override { return dictionary_type->textCanContainOnlyValidUTF8(); } bool isComparable() const override { return dictionary_type->isComparable(); } bool canBeComparedWithCollation() const override { return dictionary_type->canBeComparedWithCollation(); } bool canBeUsedAsVersion() const override { return dictionary_type->canBeUsedAsVersion(); } bool isSummable() const override { return dictionary_type->isSummable(); } bool canBeUsedInBitOperations() const override { return dictionary_type->canBeUsedInBitOperations(); } bool canBeUsedInBooleanContext() const override { return dictionary_type->canBeUsedInBooleanContext(); } bool isValueRepresentedByNumber() const override { return dictionary_type->isValueRepresentedByNumber(); } bool isValueRepresentedByInteger() const override { return dictionary_type->isValueRepresentedByInteger(); } bool isValueRepresentedByUnsignedInteger() const override { return dictionary_type->isValueRepresentedByUnsignedInteger(); } bool isValueUnambiguouslyRepresentedInContiguousMemoryRegion() const override { return true; } bool haveMaximumSizeOfValue() const override { return dictionary_type->haveMaximumSizeOfValue(); } size_t getMaximumSizeOfValueInMemory() const override { return dictionary_type->getMaximumSizeOfValueInMemory(); } size_t getSizeOfValueInMemory() const override { return dictionary_type->getSizeOfValueInMemory(); } bool isCategorial() const override { return false; } bool isNullable() const override { return false; } bool onlyNull() const override { return false; } bool lowCardinality() const override { return true; } bool supportsSparseSerialization() const override { return false; } bool isLowCardinalityNullable() const override { return dictionary_type->isNullable(); } static MutableColumnUniquePtr createColumnUnique(const IDataType & keys_type); static MutableColumnUniquePtr createColumnUnique(const IDataType & keys_type, MutableColumnPtr && keys); void forEachChild(const ChildCallback & callback) const override; private: SerializationPtr doGetDefaultSerialization() const override; template using SerializeFunctionPtr = void (IDataType::*)(const IColumn &, size_t, Params ...) const; template void serializeImpl(const IColumn & column, size_t row_num, SerializeFunctionPtr func, Args &&... args) const; template using DeserializeFunctionPtr = void (IDataType::*)(IColumn &, Params ...) const; template void deserializeImpl(IColumn & column, DeserializeFunctionPtr func, Args &&... args) const; template static MutableColumnUniquePtr createColumnUniqueImpl(const IDataType & keys_type, const Creator & creator); }; /// Returns dictionary type if type is DataTypeLowCardinality, type otherwise. DataTypePtr removeLowCardinality(const DataTypePtr & type); /// Remove LowCardinality recursively from all nested types. DataTypePtr recursiveRemoveLowCardinality(const DataTypePtr & type); /// Remove LowCardinality recursively from all nested columns. ColumnPtr recursiveRemoveLowCardinality(const ColumnPtr & column); /// Convert column of type from_type to type to_type by converting nested LowCardinality columns. ColumnPtr recursiveLowCardinalityTypeConversion(const ColumnPtr & column, const DataTypePtr & from_type, const DataTypePtr & to_type); /// Removes LowCardinality and Nullable in a correct order and returns T /// if the type is LowCardinality(T) or LowCardinality(Nullable(T)); type otherwise DataTypePtr removeLowCardinalityAndNullable(const DataTypePtr & type); }