#pragma once #include #include #include #include #include #include #include namespace DB { struct StorageSnapshot; using StorageSnapshotPtr = std::shared_ptr; class ColumnsDescription; class IQueryTreeNode; using QueryTreeNodePtr = std::shared_ptr; /// Returns number of dimensions in Array type. 0 if type is not array. size_t getNumberOfDimensions(const IDataType & type); /// Returns number of dimensions in Array column. 0 if column is not array. size_t getNumberOfDimensions(const IColumn & column); /// Returns type of scalars of Array of arbitrary dimensions. DataTypePtr getBaseTypeOfArray(const DataTypePtr & type); /// The same as above but takes into account Tuples of Nested. DataTypePtr getBaseTypeOfArray(DataTypePtr type, const Names & tuple_elements); /// Returns Array type with requested scalar type and number of dimensions. DataTypePtr createArrayOfType(DataTypePtr type, size_t num_dimensions); /// Returns column of scalars of Array of arbitrary dimensions. ColumnPtr getBaseColumnOfArray(const ColumnPtr & column); /// Returns empty Array column with requested scalar column and number of dimensions. ColumnPtr createArrayOfColumn(const ColumnPtr & column, size_t num_dimensions); /// Returns Array with requested number of dimensions and no scalars. Array createEmptyArrayField(size_t num_dimensions); /// Tries to get data type by column. Only limited subset of types is supported DataTypePtr getDataTypeByColumn(const IColumn & column); /// Converts Object types and columns to Tuples in @columns_list and @block /// and checks that types are consistent with types in @storage_snapshot. void convertDynamicColumnsToTuples(Block & block, const StorageSnapshotPtr & storage_snapshot); /// Checks that each path is not the prefix of any other path. void checkObjectHasNoAmbiguosPaths(const PathsInData & paths); /// Receives several Tuple types and deduces the least common type among them. DataTypePtr getLeastCommonTypeForDynamicColumns( const DataTypePtr & type_in_storage, const DataTypes & types, bool check_ambiguos_paths = false); DataTypePtr createConcreteEmptyDynamicColumn(const DataTypePtr & type_in_storage); /// Converts types of object columns to tuples in @columns_list /// according to @object_columns and adds all tuple's subcolumns if needed. void extendObjectColumns(NamesAndTypesList & columns_list, const ColumnsDescription & object_columns, bool with_subcolumns); /// Checks whether @columns contain any column with dynamic subcolumns. bool hasDynamicSubcolumnsDeprecated(const ColumnsDescription & columns); /// Updates types of objects in @object_columns inplace /// according to types in new_columns. void updateObjectColumns( ColumnsDescription & object_columns, const ColumnsDescription & storage_columns, const NamesAndTypesList & new_columns); using DataTypeTuplePtr = std::shared_ptr; /// Flattens nested Tuple to plain Tuple. I.e extracts all paths and types from tuple. /// E.g. Tuple(t Tuple(c1 UInt32, c2 String), c3 UInt64) -> Tuple(t.c1 UInt32, t.c2 String, c3 UInt32) std::pair flattenTuple(const DataTypePtr & type); /// Flattens nested Tuple column to plain Tuple column. ColumnPtr flattenTuple(const ColumnPtr & column); /// The reverse operation to 'flattenTuple'. /// Creates nested Tuple from all paths and types. /// E.g. Tuple(t.c1 UInt32, t.c2 String, c3 UInt32) -> Tuple(t Tuple(c1 UInt32, c2 String), c3 UInt64) DataTypePtr unflattenTuple( const PathsInData & paths, const DataTypes & tuple_types); std::pair unflattenObjectToTuple(const ColumnObjectDeprecated & column); std::pair unflattenTuple( const PathsInData & paths, const DataTypes & tuple_types, const Columns & tuple_columns); /// For all columns which exist in @expected_columns and /// don't exist in @available_columns adds to WITH clause /// an alias with column name to literal of default value of column type. void replaceMissedSubcolumnsByConstants( const ColumnsDescription & expected_columns, const ColumnsDescription & available_columns, ASTPtr query); bool replaceMissedSubcolumnsByConstants( const ColumnsDescription & expected_columns, const ColumnsDescription & available_columns, QueryTreeNodePtr & query, const ContextPtr & context); /// Visitor that keeps @num_dimensions_to_keep dimensions in arrays /// and replaces all scalars or nested arrays to @replacement at that level. class FieldVisitorReplaceScalars : public StaticVisitor { public: FieldVisitorReplaceScalars(const Field & replacement_, size_t num_dimensions_to_keep_) : replacement(replacement_), num_dimensions_to_keep(num_dimensions_to_keep_) { } Field operator()(const Array & x) const; template Field operator()(const T &) const { return replacement; } private: const Field & replacement; size_t num_dimensions_to_keep; }; /// Calculates number of dimensions in array field. /// Returns 0 for scalar fields. class FieldVisitorToNumberOfDimensions : public StaticVisitor { public: size_t operator()(const Array & x); template size_t operator()(const T &) const { return 0; } bool need_fold_dimension = false; }; /// Fold field (except Null) to the higher dimension, e.g. `1` -- fold 2 --> `[[1]]` /// used to normalize dimension of element in an array. e.g [1, [2]] --> [[1], [2]] class FieldVisitorFoldDimension : public StaticVisitor { public: explicit FieldVisitorFoldDimension(size_t num_dimensions_to_fold_) : num_dimensions_to_fold(num_dimensions_to_fold_) { } Field operator()(const Array & x) const; Field operator()(const Null & x) const; template Field operator()(const T & x) const { if (num_dimensions_to_fold == 0) return x; Array res(1, x); for (size_t i = 1; i < num_dimensions_to_fold; ++i) { Array new_res; new_res.push_back(std::move(res)); res = std::move(new_res); } return res; } private: size_t num_dimensions_to_fold; }; void setAllObjectsToDummyTupleType(NamesAndTypesList & columns); /// Receives range of objects, which contains collections /// of columns-like objects (e.g. ColumnsDescription or NamesAndTypesList) /// and deduces the common types of object columns for all entries. /// @entry_columns_getter should extract reference to collection of /// columns-like objects from entry to which Iterator points. /// columns-like object should have fields "name" and "type". template ColumnsDescription getConcreteObjectColumns( Iterator begin, Iterator end, const ColumnsDescription & storage_columns, EntryColumnsGetter && entry_columns_getter) { std::unordered_map types_in_entries; /// Add dummy column for all Object columns /// to not lose any column if it's missing /// in all entries. If it exists in any entry /// dummy column will be removed. for (const auto & column : storage_columns) { if (column.type->hasDynamicSubcolumnsDeprecated()) types_in_entries[column.name].push_back(createConcreteEmptyDynamicColumn(column.type)); } for (auto it = begin; it != end; ++it) { const auto & entry_columns = entry_columns_getter(*it); for (const auto & column : entry_columns) { auto storage_column = storage_columns.tryGetPhysical(column.name); if (storage_column && storage_column->type->hasDynamicSubcolumnsDeprecated()) types_in_entries[column.name].push_back(column.type); } } ColumnsDescription res; for (const auto & [name, types] : types_in_entries) { auto storage_column = storage_columns.getPhysical(name); res.add({name, getLeastCommonTypeForDynamicColumns(storage_column.type, types)}); } return res; } }