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283 lines
12 KiB
C++
283 lines
12 KiB
C++
#pragma once
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#include <memory>
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#include <DB/Common/PODArray.h>
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#include <DB/Common/typeid_cast.h>
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#include <DB/Core/Field.h>
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#include <DB/Common/Exception.h>
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#include <DB/Core/StringRef.h>
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class SipHash;
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namespace DB
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{
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namespace ErrorCodes
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{
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extern const int CANNOT_GET_SIZE_OF_FIELD;
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extern const int NOT_IMPLEMENTED;
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extern const int SIZES_OF_COLUMNS_DOESNT_MATCH;
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}
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class IColumn;
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using ColumnPtr = std::shared_ptr<IColumn>;
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using Columns = std::vector<ColumnPtr>;
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using ColumnPlainPtrs = std::vector<IColumn *>;
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using ConstColumnPlainPtrs = std::vector<const IColumn *>;
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class Arena;
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/// Declares interface to store columns in memory.
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class IColumn : private boost::noncopyable
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{
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public:
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/// Name of a Column. It is used in info messages.
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virtual std::string getName() const = 0;
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/// Column is vector of numbers or numeric constant.
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virtual bool isNumeric() const { return false; }
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/// Is this column numeric and not nullable?
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virtual bool isNumericNotNullable() const { return isNumeric(); }
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/// Column stores a constant value.
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virtual bool isConst() const { return false; }
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/// Is this column a container for nullable values?
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virtual bool isNullable() const { return false; }
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/// Is this a null column?
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virtual bool isNull() const { return false; }
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/** If column isn't constant, returns nullptr (or itself).
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* If column is constant, transforms constant to full column (if column type allows such tranform) and return it.
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* Special case:
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* If column is composed from several other columns (tuple for example), and contains both constant and full columns,
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* then each constant column is transformed, and final result is returned.
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*/
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virtual ColumnPtr convertToFullColumnIfConst() const { return {}; }
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/// Values in column have equal size in memory.
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virtual bool isFixed() const { return false; }
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/// If column isFixed(), returns size of value.
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virtual size_t sizeOfField() const { throw Exception("Cannot get sizeOfField() for column " + getName(), ErrorCodes::CANNOT_GET_SIZE_OF_FIELD); }
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/// Creates the same column with the same data.
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virtual ColumnPtr clone() const { return cut(0, size()); }
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/// Creates empty column with the same type.
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virtual ColumnPtr cloneEmpty() const { return cloneResized(0); }
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/// Creates column with the same type and specified size.
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/// If size is less current size, then data is cut.
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/// If size is greater, than default values are appended.
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virtual ColumnPtr cloneResized(size_t size) const { throw Exception("Cannot cloneResized() column " + getName(), ErrorCodes::NOT_IMPLEMENTED); }
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/// Returns number of values in column.
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virtual size_t size() const = 0;
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/// There are no values in columns.
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bool empty() const { return size() == 0; }
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/// Returns value of n-th element in universal Field representation.
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/// Is used in rare cases, since creation of Field instance is expensive usually.
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virtual Field operator[](size_t n) const = 0;
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/// Like the previous one, but avoids extra copying if Field is in a container, for example.
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virtual void get(size_t n, Field & res) const = 0;
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/// If possible, returns pointer to memory chunk which contains n-th element (if it isn't possible, throws an exception)
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/// Is used to optimize some computations (in aggregation, for example).
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virtual StringRef getDataAt(size_t n) const = 0;
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/// Like getData, but has special behavior for columns that contain variable-length strings.
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/// Returns zero-ending memory chunk (i.e. its size is 1 byte longer).
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virtual StringRef getDataAtWithTerminatingZero(size_t n) const
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{
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return getDataAt(n);
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}
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/// If column stores integers, it returns n-th element transformed to UInt64 using static_cast.
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/// If column stores floting point numbers, bits of n-th elements are copied to lower bits of UInt64, the remaining bits are zeros.
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/// Is used to optimize some computations (in aggregation, for example).
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virtual UInt64 get64(size_t n) const
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{
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throw Exception("Method get64 is not supported for " + getName(), ErrorCodes::NOT_IMPLEMENTED);
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}
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/// Removes all elements outside of specified range.
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/// Is used in LIMIT operation, for example.
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virtual ColumnPtr cut(size_t start, size_t length) const
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{
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ColumnPtr res = cloneEmpty();
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res.get()->insertRangeFrom(*this, start, length);
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return res;
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}
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/// Appends new value at the end of column (column's size is increased by 1).
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/// Is used to transform raw strings to Blocks (for example, inside input format parsers)
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virtual void insert(const Field & x) = 0;
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/// Appends n-th element from other column with the same type.
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/// Is used in merge-sort and merges. It could be implemented in inherited classes more optimally than default implementation.
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virtual void insertFrom(const IColumn & src, size_t n) { insert(src[n]); }
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/// Appends range of elements from other column.
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/// Could be used to concatenate columns.
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virtual void insertRangeFrom(const IColumn & src, size_t start, size_t length) = 0;
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/// Appends data located in specified memory chunk if it is possible (throws an exception if it cannot be implemented).
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/// Is used to optimize some computations (in aggregation, for example).
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/// Parameter length could be ignored if column isFixed().
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virtual void insertData(const char * pos, size_t length) = 0;
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/// Like getData, but has special behavior for columns that contain variable-length strings.
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/// In this special case inserting data should be zero-ending (i.e. length is 1 byte greater than real string size).
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virtual void insertDataWithTerminatingZero(const char * pos, size_t length)
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{
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insertData(pos, length);
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}
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/// Appends "default value".
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/// Is used when there are need to increase column size, but inserting value doesn't make sense.
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/// For example, ColumnNullable(Nested) absolutely ignores values of nested column if it is marked as NULL.
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virtual void insertDefault() = 0;
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/** Removes last n elements.
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* Is used to support exeption-safety of several operations.
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* For example, sometimes insertion should be reverted if we catch an exception during operation processing.
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* If column has less than n elements or n == 0 - undefined behavior.
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*/
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virtual void popBack(size_t n) = 0;
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/** Serializes n-th element. Serialized element should be placed continuously inside Arena's memory.
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* Serialized value can be deserialized to reconstruct original object. Is used in aggregation.
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* The method is similar to getDataAt(), but can work when element's value cannot be mapped to existing continuous memory chunk,
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* For example, to obtain unambiguous representation of Array of strings, strings data should be interleaved with their sizes.
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* Parameter begin should be used with Arena::allocContinue.
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*/
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virtual StringRef serializeValueIntoArena(size_t n, Arena & arena, char const *& begin) const = 0;
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/// Deserializes a value that was serialized using IColumn::serializeValueIntoArena method.
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/// Returns pointer to the position after the read data.
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virtual const char * deserializeAndInsertFromArena(const char * pos) = 0;
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/// Update state of hash function with value of n-th element.
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/// On subsequent calls of this method for sequence of column values of arbitary types,
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/// passed bytes to hash must identify sequence of values unambiguously.
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virtual void updateHashWithValue(size_t n, SipHash & hash) const = 0;
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/** Removes elements that don't match the filter.
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* Is used in WHERE and HAVING operations.
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* If result_size_hint > 0, then makes advance reserve(result_size_hint) for the result column;
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* if 0, then don't makes reserve(),
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* otherwise (i.e. < 0), makes reserve() using size of source column.
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*/
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using Filter = PaddedPODArray<UInt8>;
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virtual ColumnPtr filter(const Filter & filt, ssize_t result_size_hint) const = 0;
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/// Permutes elements using specified permutation. Is used in sortings.
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/// limit - if it isn't 0, puts only first limit elements in the result.
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using Permutation = PaddedPODArray<size_t>;
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virtual ColumnPtr permute(const Permutation & perm, size_t limit) const = 0;
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/** Compares (*this)[n] and rhs[m].
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* Returns negative number, 0, or positive number (*this)[n] is less, equal, greater than rhs[m] respectively.
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* Is used in sortings.
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*
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* If one of element's value is NaN, then:
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* - if nan_direction_hint == -1, NaN is considered as least number;
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* - if nan_direction_hint == 1, NaN is considered as greatest number.
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* In fact, if nan_direction_hint == -1 is used by descending sorting, NaNs will be at the end.
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*
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* nan_direction_hint is ignored for non floating point values.
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*/
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virtual int compareAt(size_t n, size_t m, const IColumn & rhs, int nan_direction_hint) const = 0;
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/** Returns a permutation that sorts elements of this column,
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* i.e. perm[i]-th element of source column should be i-th element of sorted column.
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* reverse - reverse ordering (acsending).
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* limit - if isn't 0, then only first limit elements of the result column could be sorted.
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* Regardless of the ordering, NaNs should be at the end.
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*/
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virtual void getPermutation(bool reverse, size_t limit, Permutation & res) const = 0;
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/** Copies each element according offsets parameter.
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* (i-th element should be copied offsets[i] - offsets[i - 1] times.)
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* It is necessary in ARRAY JOIN operation.
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*/
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using Offset_t = UInt64;
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using Offsets_t = PaddedPODArray<Offset_t>;
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virtual ColumnPtr replicate(const Offsets_t & offsets) const = 0;
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/** Split column to smaller columns. Each value goes to column index, selected by corresponding element of 'selector'.
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* Selector must contain values from 0 to num_columns - 1.
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* For default implementation, see scatterImpl.
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*/
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using ColumnIndex = UInt64;
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using Selector = PaddedPODArray<ColumnIndex>;
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virtual Columns scatter(ColumnIndex num_columns, const Selector & selector) const = 0;
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/** Computes minimum and maximum element of the column.
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* In addition to numeric types, the funtion is completely implemented for Date and DateTime.
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* For strings and arrays function should retrurn default value.
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* (except for constant columns; they should return value of the constant).
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* If column is empty function should return default value.
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*/
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virtual void getExtremes(Field & min, Field & max) const = 0;
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/// Reserves memory for specified amount of elements. If reservation isn't possible, does nothing.
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/// It affects performance only (not correctness).
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virtual void reserve(size_t n) {};
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/// Size of column data in memory (may be approximate) - for profiling. Zero, if could not be determined.
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virtual size_t byteSize() const = 0;
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/// Size of memory, allocated for column.
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/// This is greater or equals to byteSize due to memory reservation in containers.
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/// Zero, if could be determined.
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virtual size_t allocatedSize() const = 0;
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virtual ~IColumn() {}
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protected:
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/// Template is to devirtualize calls to insertFrom method.
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/// In derived classes (that use final keyword), implement scatter method as call to scatterImpl.
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template <typename Derived>
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Columns scatterImpl(ColumnIndex num_columns, const Selector & selector) const
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{
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size_t num_rows = size();
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if (num_rows != selector.size())
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throw Exception("Size of selector doesn't match size of column.", ErrorCodes::SIZES_OF_COLUMNS_DOESNT_MATCH);
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Columns columns(num_columns);
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for (auto & column : columns)
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column = cloneEmpty();
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{
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size_t reserve_size = num_rows / num_columns * 1.1; /// 1.1 is just a guess. Better to use n-sigma rule.
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if (reserve_size > 1)
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for (auto & column : columns)
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column->reserve(reserve_size);
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}
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for (size_t i = 0; i < num_rows; ++i)
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static_cast<Derived &>(*columns[selector[i]]).insertFrom(*this, i);
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return columns;
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}
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};
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}
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