ClickHouse/src/Columns/ColumnDynamic.h

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#pragma once
#include <Columns/IColumn.h>
#include <Columns/ColumnVector.h>
#include <Columns/ColumnVariant.h>
#include <DataTypes/IDataType.h>
namespace DB
{
/**
* Column for storing Dynamic type values.
* Dynamic column allows to insert and store values of any data types inside.
* Inside it stores:
* - Variant column with all inserted values of different types.
* - Information about currently stored variants.
*
* When new values are inserted into Dynamic column, the internal Variant
* type and column are extended if the inserted value has new type.
*/
class ColumnDynamic final : public COWHelper<IColumnHelper<ColumnDynamic>, ColumnDynamic>
{
public:
///
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struct Statistics
{
enum class Source
{
READ, /// Statistics were loaded into column during reading from MergeTree.
MERGE, /// Statistics were calculated during merge of several MergeTree parts.
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};
/// Source of the statistics.
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Source source;
/// Statistics data: (variant name) -> (total variant size in data part).
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std::unordered_map<String, size_t> data;
};
private:
friend class COWHelper<IColumnHelper<ColumnDynamic>, ColumnDynamic>;
struct VariantInfo
{
DataTypePtr variant_type;
/// Name of the whole variant to not call getName() every time.
String variant_name;
/// Names of variants to not call getName() every time on variants.
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Names variant_names;
/// Mapping (variant name) -> (global discriminator).
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/// It's used during variant extension.
std::unordered_map<String, UInt8> variant_name_to_discriminator;
};
ColumnDynamic(size_t max_dynamic_types_);
ColumnDynamic(MutableColumnPtr variant_column_, const VariantInfo & variant_info_, size_t max_dynamic_types_, const Statistics & statistics_ = {});
public:
/** Create immutable column using immutable arguments. This arguments may be shared with other columns.
* Use IColumn::mutate in order to make mutable column and mutate shared nested columns.
*/
using Base = COWHelper<IColumnHelper<ColumnDynamic>, ColumnDynamic>;
static Ptr create(const ColumnPtr & variant_column_, const VariantInfo & variant_info_, size_t max_dynamic_types_, const Statistics & statistics_ = {})
{
return ColumnDynamic::create(variant_column_->assumeMutable(), variant_info_, max_dynamic_types_, statistics_);
}
static MutablePtr create(MutableColumnPtr variant_column_, const VariantInfo & variant_info_, size_t max_dynamic_types_, const Statistics & statistics_ = {})
{
return Base::create(std::move(variant_column_), variant_info_, max_dynamic_types_, statistics_);
}
static MutablePtr create(MutableColumnPtr variant_column_, const DataTypePtr & variant_type, size_t max_dynamic_types_, const Statistics & statistics_ = {});
static ColumnPtr create(ColumnPtr variant_column_, const DataTypePtr & variant_type, size_t max_dynamic_types_, const Statistics & statistics_ = {})
{
return create(variant_column_->assumeMutable(), variant_type, max_dynamic_types_, statistics_);
}
static MutablePtr create(size_t max_dynamic_types_)
{
return Base::create(max_dynamic_types_);
}
std::string getName() const override { return "Dynamic(max_types=" + std::to_string(max_dynamic_types) + ")"; }
const char * getFamilyName() const override
{
return "Dynamic";
}
TypeIndex getDataType() const override
{
return TypeIndex::Dynamic;
}
MutableColumnPtr cloneEmpty() const override
{
/// Keep current dynamic structure.
return Base::create(variant_column->cloneEmpty(), variant_info, max_dynamic_types, statistics);
}
MutableColumnPtr cloneResized(size_t size) const override
{
return Base::create(variant_column->cloneResized(size), variant_info, max_dynamic_types, statistics);
}
size_t size() const override
{
return variant_column->size();
}
Field operator[](size_t n) const override
{
return (*variant_column)[n];
}
void get(size_t n, Field & res) const override
{
variant_column->get(n, res);
}
bool isDefaultAt(size_t n) const override
{
return variant_column->isDefaultAt(n);
}
bool isNullAt(size_t n) const override
{
return variant_column->isNullAt(n);
}
StringRef getDataAt(size_t n) const override
{
return variant_column->getDataAt(n);
}
void insertData(const char * pos, size_t length) override
{
return variant_column->insertData(pos, length);
}
void insert(const Field & x) override;
bool tryInsert(const Field & x) override;
void insertFrom(const IColumn & src_, size_t n) override;
void insertRangeFrom(const IColumn & src, size_t start, size_t length) override;
void insertManyFrom(const IColumn & src, size_t position, size_t length) override;
void insertDefault() override
{
variant_column->insertDefault();
}
void insertManyDefaults(size_t length) override
{
variant_column->insertManyDefaults(length);
}
void popBack(size_t n) override
{
variant_column->popBack(n);
}
StringRef serializeValueIntoArena(size_t n, Arena & arena, char const *& begin) const override;
const char * deserializeAndInsertFromArena(const char * pos) override;
const char * skipSerializedInArena(const char * pos) const override;
void updateHashWithValue(size_t n, SipHash & hash) const override;
void updateWeakHash32(WeakHash32 & hash) const override
{
variant_column->updateWeakHash32(hash);
}
void updateHashFast(SipHash & hash) const override
{
variant_column->updateHashFast(hash);
}
ColumnPtr filter(const Filter & filt, ssize_t result_size_hint) const override
{
return create(variant_column->filter(filt, result_size_hint), variant_info, max_dynamic_types);
}
void expand(const Filter & mask, bool inverted) override
{
variant_column->expand(mask, inverted);
}
ColumnPtr permute(const Permutation & perm, size_t limit) const override
{
return create(variant_column->permute(perm, limit), variant_info, max_dynamic_types);
}
ColumnPtr index(const IColumn & indexes, size_t limit) const override
{
return create(variant_column->index(indexes, limit), variant_info, max_dynamic_types);
}
ColumnPtr replicate(const Offsets & replicate_offsets) const override
{
return create(variant_column->replicate(replicate_offsets), variant_info, max_dynamic_types);
}
MutableColumns scatter(ColumnIndex num_columns, const Selector & selector) const override
{
MutableColumns scattered_variant_columns = variant_column->scatter(num_columns, selector);
MutableColumns scattered_columns;
scattered_columns.reserve(num_columns);
for (auto & scattered_variant_column : scattered_variant_columns)
scattered_columns.emplace_back(create(std::move(scattered_variant_column), variant_info, max_dynamic_types));
return scattered_columns;
}
int compareAt(size_t n, size_t m, const IColumn & rhs, int nan_direction_hint) const override;
bool hasEqualValues() const override
{
return variant_column->hasEqualValues();
}
void getExtremes(Field & min, Field & max) const override
{
variant_column->getExtremes(min, max);
}
void getPermutation(IColumn::PermutationSortDirection direction, IColumn::PermutationSortStability stability,
size_t limit, int nan_direction_hint, IColumn::Permutation & res) const override
{
variant_column->getPermutation(direction, stability, limit, nan_direction_hint, res);
}
void updatePermutation(IColumn::PermutationSortDirection direction, IColumn::PermutationSortStability stability,
size_t limit, int nan_direction_hint, IColumn::Permutation & res, EqualRanges & equal_ranges) const override
{
variant_column->updatePermutation(direction, stability, limit, nan_direction_hint, res, equal_ranges);
}
void reserve(size_t n) override
{
variant_column->reserve(n);
}
void ensureOwnership() override
{
variant_column->ensureOwnership();
}
size_t byteSize() const override
{
return variant_column->byteSize();
}
size_t byteSizeAt(size_t n) const override
{
return variant_column->byteSizeAt(n);
}
size_t allocatedBytes() const override
{
return variant_column->allocatedBytes();
}
void protect() override
{
variant_column->protect();
}
void forEachSubcolumn(MutableColumnCallback callback) override
{
callback(variant_column);
}
void forEachSubcolumnRecursively(RecursiveMutableColumnCallback callback) override
{
callback(*variant_column);
variant_column->forEachSubcolumnRecursively(callback);
}
bool structureEquals(const IColumn & rhs) const override
{
if (const auto * rhs_concrete = typeid_cast<const ColumnDynamic *>(&rhs))
return max_dynamic_types == rhs_concrete->max_dynamic_types;
return false;
}
ColumnPtr compress() const override;
double getRatioOfDefaultRows(double sample_ratio) const override
{
return variant_column->getRatioOfDefaultRows(sample_ratio);
}
UInt64 getNumberOfDefaultRows() const override
{
return variant_column->getNumberOfDefaultRows();
}
void getIndicesOfNonDefaultRows(Offsets & indices, size_t from, size_t limit) const override
{
variant_column->getIndicesOfNonDefaultRows(indices, from, limit);
}
void finalize() override
{
variant_column->finalize();
}
bool isFinalized() const override
{
return variant_column->isFinalized();
}
/// Apply null map to a nested Variant column.
void applyNullMap(const ColumnVector<UInt8>::Container & null_map);
void applyNegatedNullMap(const ColumnVector<UInt8>::Container & null_map);
const VariantInfo & getVariantInfo() const { return variant_info; }
const ColumnPtr & getVariantColumnPtr() const { return variant_column; }
ColumnPtr & getVariantColumnPtr() { return variant_column; }
const ColumnVariant & getVariantColumn() const { return assert_cast<const ColumnVariant &>(*variant_column); }
ColumnVariant & getVariantColumn() { return assert_cast<ColumnVariant &>(*variant_column); }
bool addNewVariant(const DataTypePtr & new_variant);
void addStringVariant();
bool hasDynamicStructure() const override { return true; }
void takeDynamicStructureFromSourceColumns(const Columns & source_columns) override;
const Statistics & getStatistics() const { return statistics; }
size_t getMaxDynamicTypes() const { return max_dynamic_types; }
private:
/// Combine current variant with the other variant and return global discriminators mapping
/// from other variant to the combined one. It's used for inserting from
/// different variants.
/// Returns nullptr if maximum number of variants is reached and the new variant cannot be created.
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std::vector<UInt8> * combineVariants(const VariantInfo & other_variant_info);
void updateVariantInfoAndExpandVariantColumn(const DataTypePtr & new_variant_type);
WrappedPtr variant_column;
/// Store the type of current variant with some additional information.
VariantInfo variant_info;
/// The maximum number of different types that can be stored in this Dynamic column.
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/// If exceeded, all new variants will be converted to String.
size_t max_dynamic_types;
/// Size statistics of each variants from MergeTree data part.
/// Used in takeDynamicStructureFromSourceColumns and set during deserialization.
Statistics statistics;
/// Cache (Variant name) -> (global discriminators mapping from this variant to current variant in Dynamic column).
/// Used to avoid mappings recalculation in combineVariants for the same Variant types.
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std::unordered_map<String, std::vector<UInt8>> variant_mappings_cache;
/// Cache of Variant types that couldn't be combined with current variant in Dynamic column.
/// Used to avoid checking if combination is possible for the same Variant types.
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std::unordered_set<String> variants_with_failed_combination;
};
}