mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-12-16 03:12:43 +00:00
734 lines
26 KiB
C++
734 lines
26 KiB
C++
#include "FlatDictionary.h"
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#include <IO/WriteHelpers.h>
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#include "DictionaryBlockInputStream.h"
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#include "DictionaryFactory.h"
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#include <Core/Defines.h>
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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 TYPE_MISMATCH;
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extern const int ARGUMENT_OUT_OF_BOUND;
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extern const int BAD_ARGUMENTS;
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extern const int DICTIONARY_IS_EMPTY;
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extern const int UNSUPPORTED_METHOD;
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}
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static const auto initial_array_size = 1024;
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static const auto max_array_size = 500000;
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FlatDictionary::FlatDictionary(
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const StorageID & dict_id_,
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const DictionaryStructure & dict_struct_,
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DictionarySourcePtr source_ptr_,
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const DictionaryLifetime dict_lifetime_,
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bool require_nonempty_,
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BlockPtr saved_block_)
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: IDictionary(dict_id_)
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, dict_struct(dict_struct_)
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, source_ptr{std::move(source_ptr_)}
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, dict_lifetime(dict_lifetime_)
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, require_nonempty(require_nonempty_)
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, loaded_ids(initial_array_size, false)
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, saved_block{std::move(saved_block_)}
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{
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createAttributes();
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loadData();
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calculateBytesAllocated();
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}
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void FlatDictionary::toParent(const PaddedPODArray<Key> & ids, PaddedPODArray<Key> & out) const
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{
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const auto null_value = std::get<UInt64>(hierarchical_attribute->null_values);
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getItemsImpl<UInt64, UInt64>(
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*hierarchical_attribute,
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ids,
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[&](const size_t row, const UInt64 value) { out[row] = value; },
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[&](const size_t) { return null_value; });
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}
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/// Allow to use single value in same way as array.
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static inline FlatDictionary::Key getAt(const PaddedPODArray<FlatDictionary::Key> & arr, const size_t idx)
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{
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return arr[idx];
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}
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static inline FlatDictionary::Key getAt(const FlatDictionary::Key & value, const size_t)
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{
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return value;
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}
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template <typename ChildType, typename AncestorType>
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void FlatDictionary::isInImpl(const ChildType & child_ids, const AncestorType & ancestor_ids, PaddedPODArray<UInt8> & out) const
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{
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const auto null_value = std::get<UInt64>(hierarchical_attribute->null_values);
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const auto & attr = std::get<ContainerType<Key>>(hierarchical_attribute->arrays);
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const auto rows = out.size();
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size_t loaded_size = attr.size();
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for (const auto row : ext::range(0, rows))
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{
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auto id = getAt(child_ids, row);
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const auto ancestor_id = getAt(ancestor_ids, row);
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for (size_t i = 0; id < loaded_size && id != null_value && id != ancestor_id && i < DBMS_HIERARCHICAL_DICTIONARY_MAX_DEPTH; ++i)
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id = attr[id];
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out[row] = id != null_value && id == ancestor_id;
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}
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query_count.fetch_add(rows, std::memory_order_relaxed);
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}
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void FlatDictionary::isInVectorVector(
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const PaddedPODArray<Key> & child_ids, const PaddedPODArray<Key> & ancestor_ids, PaddedPODArray<UInt8> & out) const
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{
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isInImpl(child_ids, ancestor_ids, out);
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}
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void FlatDictionary::isInVectorConstant(const PaddedPODArray<Key> & child_ids, const Key ancestor_id, PaddedPODArray<UInt8> & out) const
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{
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isInImpl(child_ids, ancestor_id, out);
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}
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void FlatDictionary::isInConstantVector(const Key child_id, const PaddedPODArray<Key> & ancestor_ids, PaddedPODArray<UInt8> & out) const
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{
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isInImpl(child_id, ancestor_ids, out);
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}
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#define DECLARE(TYPE) \
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void FlatDictionary::get##TYPE(const std::string & attribute_name, const PaddedPODArray<Key> & ids, ResultArrayType<TYPE> & out) const \
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{ \
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const auto & attribute = getAttribute(attribute_name); \
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::ut##TYPE); \
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\
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const auto null_value = std::get<TYPE>(attribute.null_values); \
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\
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getItemsImpl<TYPE, TYPE>( \
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attribute, ids, [&](const size_t row, const auto value) { out[row] = value; }, [&](const size_t) { return null_value; }); \
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}
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DECLARE(UInt8)
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DECLARE(UInt16)
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DECLARE(UInt32)
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DECLARE(UInt64)
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DECLARE(UInt128)
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DECLARE(Int8)
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DECLARE(Int16)
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DECLARE(Int32)
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DECLARE(Int64)
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DECLARE(Float32)
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DECLARE(Float64)
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DECLARE(Decimal32)
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DECLARE(Decimal64)
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DECLARE(Decimal128)
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#undef DECLARE
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void FlatDictionary::getString(const std::string & attribute_name, const PaddedPODArray<Key> & ids, ColumnString * out) const
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{
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const auto & attribute = getAttribute(attribute_name);
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::utString);
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const auto & null_value = std::get<StringRef>(attribute.null_values);
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getItemsImpl<StringRef, StringRef>(
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attribute,
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ids,
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[&](const size_t, const StringRef value) { out->insertData(value.data, value.size); },
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[&](const size_t) { return null_value; });
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}
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#define DECLARE(TYPE) \
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void FlatDictionary::get##TYPE( \
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const std::string & attribute_name, \
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const PaddedPODArray<Key> & ids, \
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const PaddedPODArray<TYPE> & def, \
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ResultArrayType<TYPE> & out) const \
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{ \
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const auto & attribute = getAttribute(attribute_name); \
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::ut##TYPE); \
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\
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getItemsImpl<TYPE, TYPE>( \
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attribute, ids, [&](const size_t row, const auto value) { out[row] = value; }, [&](const size_t row) { return def[row]; }); \
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}
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DECLARE(UInt8)
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DECLARE(UInt16)
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DECLARE(UInt32)
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DECLARE(UInt64)
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DECLARE(UInt128)
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DECLARE(Int8)
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DECLARE(Int16)
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DECLARE(Int32)
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DECLARE(Int64)
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DECLARE(Float32)
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DECLARE(Float64)
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DECLARE(Decimal32)
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DECLARE(Decimal64)
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DECLARE(Decimal128)
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#undef DECLARE
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void FlatDictionary::getString(
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const std::string & attribute_name, const PaddedPODArray<Key> & ids, const ColumnString * const def, ColumnString * const out) const
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{
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const auto & attribute = getAttribute(attribute_name);
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::utString);
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getItemsImpl<StringRef, StringRef>(
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attribute,
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ids,
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[&](const size_t, const StringRef value) { out->insertData(value.data, value.size); },
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[&](const size_t row) { return def->getDataAt(row); });
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}
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#define DECLARE(TYPE) \
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void FlatDictionary::get##TYPE( \
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const std::string & attribute_name, const PaddedPODArray<Key> & ids, const TYPE def, ResultArrayType<TYPE> & out) const \
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{ \
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const auto & attribute = getAttribute(attribute_name); \
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::ut##TYPE); \
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\
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getItemsImpl<TYPE, TYPE>( \
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attribute, ids, [&](const size_t row, const auto value) { out[row] = value; }, [&](const size_t) { return def; }); \
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}
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DECLARE(UInt8)
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DECLARE(UInt16)
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DECLARE(UInt32)
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DECLARE(UInt64)
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DECLARE(UInt128)
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DECLARE(Int8)
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DECLARE(Int16)
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DECLARE(Int32)
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DECLARE(Int64)
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DECLARE(Float32)
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DECLARE(Float64)
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DECLARE(Decimal32)
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DECLARE(Decimal64)
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DECLARE(Decimal128)
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#undef DECLARE
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void FlatDictionary::getString(
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const std::string & attribute_name, const PaddedPODArray<Key> & ids, const String & def, ColumnString * const out) const
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{
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const auto & attribute = getAttribute(attribute_name);
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checkAttributeType(this, attribute_name, attribute.type, AttributeUnderlyingType::utString);
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FlatDictionary::getItemsImpl<StringRef, StringRef>(
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attribute,
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ids,
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[&](const size_t, const StringRef value) { out->insertData(value.data, value.size); },
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[&](const size_t) { return StringRef{def}; });
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}
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void FlatDictionary::has(const PaddedPODArray<Key> & ids, PaddedPODArray<UInt8> & out) const
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{
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const auto & attribute = attributes.front();
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switch (attribute.type)
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{
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case AttributeUnderlyingType::utUInt8:
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has<UInt8>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utUInt16:
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has<UInt16>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utUInt32:
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has<UInt32>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utUInt64:
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has<UInt64>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utUInt128:
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has<UInt128>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utInt8:
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has<Int8>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utInt16:
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has<Int16>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utInt32:
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has<Int32>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utInt64:
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has<Int64>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utFloat32:
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has<Float32>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utFloat64:
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has<Float64>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utString:
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has<String>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utDecimal32:
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has<Decimal32>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utDecimal64:
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has<Decimal64>(attribute, ids, out);
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break;
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case AttributeUnderlyingType::utDecimal128:
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has<Decimal128>(attribute, ids, out);
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break;
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}
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}
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void FlatDictionary::createAttributes()
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{
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const auto size = dict_struct.attributes.size();
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attributes.reserve(size);
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for (const auto & attribute : dict_struct.attributes)
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{
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attribute_index_by_name.emplace(attribute.name, attributes.size());
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attributes.push_back(createAttributeWithType(attribute.underlying_type, attribute.null_value));
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if (attribute.hierarchical)
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{
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hierarchical_attribute = &attributes.back();
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if (hierarchical_attribute->type != AttributeUnderlyingType::utUInt64)
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throw Exception{full_name + ": hierarchical attribute must be UInt64.", ErrorCodes::TYPE_MISMATCH};
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}
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}
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}
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void FlatDictionary::blockToAttributes(const Block & block)
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{
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const IColumn & id_column = *block.safeGetByPosition(0).column;
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element_count += id_column.size();
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for (const size_t attribute_idx : ext::range(0, attributes.size()))
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{
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const IColumn & attribute_column = *block.safeGetByPosition(attribute_idx + 1).column;
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Attribute & attribute = attributes[attribute_idx];
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for (const auto row_idx : ext::range(0, id_column.size()))
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setAttributeValue(attribute, id_column[row_idx].get<UInt64>(), attribute_column[row_idx]);
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}
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}
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void FlatDictionary::updateData()
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{
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if (!saved_block || saved_block->rows() == 0)
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{
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auto stream = source_ptr->loadUpdatedAll();
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stream->readPrefix();
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while (const auto block = stream->read())
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{
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/// We are using this to keep saved data if input stream consists of multiple blocks
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if (!saved_block)
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saved_block = std::make_shared<DB::Block>(block.cloneEmpty());
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for (const auto attribute_idx : ext::range(0, attributes.size() + 1))
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{
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const IColumn & update_column = *block.getByPosition(attribute_idx).column.get();
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MutableColumnPtr saved_column = saved_block->getByPosition(attribute_idx).column->assumeMutable();
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saved_column->insertRangeFrom(update_column, 0, update_column.size());
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}
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}
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stream->readSuffix();
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}
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else
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{
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auto stream = source_ptr->loadUpdatedAll();
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stream->readPrefix();
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while (Block block = stream->read())
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{
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const auto & saved_id_column = *saved_block->safeGetByPosition(0).column;
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const auto & update_id_column = *block.safeGetByPosition(0).column;
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std::unordered_map<Key, std::vector<size_t>> update_ids;
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for (size_t row = 0; row < update_id_column.size(); ++row)
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{
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const auto id = update_id_column.get64(row);
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update_ids[id].push_back(row);
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}
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const size_t saved_rows = saved_id_column.size();
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IColumn::Filter filter(saved_rows);
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std::unordered_map<Key, std::vector<size_t>>::iterator it;
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for (size_t row = 0; row < saved_id_column.size(); ++row)
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{
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auto id = saved_id_column.get64(row);
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it = update_ids.find(id);
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if (it != update_ids.end())
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filter[row] = 0;
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else
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filter[row] = 1;
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}
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auto block_columns = block.mutateColumns();
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for (const auto attribute_idx : ext::range(0, attributes.size() + 1))
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{
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auto & column = saved_block->safeGetByPosition(attribute_idx).column;
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const auto & filtered_column = column->filter(filter, -1);
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block_columns[attribute_idx]->insertRangeFrom(*filtered_column.get(), 0, filtered_column->size());
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}
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saved_block->setColumns(std::move(block_columns));
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}
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stream->readSuffix();
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}
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if (saved_block)
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blockToAttributes(*saved_block.get());
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}
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void FlatDictionary::loadData()
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{
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if (!source_ptr->hasUpdateField())
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{
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auto stream = source_ptr->loadAll();
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stream->readPrefix();
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while (const auto block = stream->read())
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blockToAttributes(block);
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stream->readSuffix();
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}
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else
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updateData();
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if (require_nonempty && 0 == element_count)
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throw Exception{full_name + ": dictionary source is empty and 'require_nonempty' property is set.", ErrorCodes::DICTIONARY_IS_EMPTY};
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}
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template <typename T>
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void FlatDictionary::addAttributeSize(const Attribute & attribute)
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{
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const auto & array_ref = std::get<ContainerType<T>>(attribute.arrays);
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bytes_allocated += sizeof(PaddedPODArray<T>) + array_ref.allocated_bytes();
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bucket_count = array_ref.capacity();
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}
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void FlatDictionary::calculateBytesAllocated()
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{
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bytes_allocated += attributes.size() * sizeof(attributes.front());
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for (const auto & attribute : attributes)
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{
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switch (attribute.type)
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{
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case AttributeUnderlyingType::utUInt8:
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addAttributeSize<UInt8>(attribute);
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break;
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case AttributeUnderlyingType::utUInt16:
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addAttributeSize<UInt16>(attribute);
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break;
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case AttributeUnderlyingType::utUInt32:
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addAttributeSize<UInt32>(attribute);
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break;
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case AttributeUnderlyingType::utUInt64:
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addAttributeSize<UInt64>(attribute);
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break;
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case AttributeUnderlyingType::utUInt128:
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addAttributeSize<UInt128>(attribute);
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break;
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case AttributeUnderlyingType::utInt8:
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addAttributeSize<Int8>(attribute);
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break;
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case AttributeUnderlyingType::utInt16:
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addAttributeSize<Int16>(attribute);
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break;
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case AttributeUnderlyingType::utInt32:
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addAttributeSize<Int32>(attribute);
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break;
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case AttributeUnderlyingType::utInt64:
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addAttributeSize<Int64>(attribute);
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break;
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case AttributeUnderlyingType::utFloat32:
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addAttributeSize<Float32>(attribute);
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break;
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case AttributeUnderlyingType::utFloat64:
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addAttributeSize<Float64>(attribute);
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break;
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case AttributeUnderlyingType::utDecimal32:
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addAttributeSize<Decimal32>(attribute);
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break;
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case AttributeUnderlyingType::utDecimal64:
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addAttributeSize<Decimal64>(attribute);
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break;
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case AttributeUnderlyingType::utDecimal128:
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addAttributeSize<Decimal128>(attribute);
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break;
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case AttributeUnderlyingType::utString:
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{
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addAttributeSize<StringRef>(attribute);
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bytes_allocated += sizeof(Arena) + attribute.string_arena->size();
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break;
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}
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}
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}
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}
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template <typename T>
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void FlatDictionary::createAttributeImpl(Attribute & attribute, const Field & null_value)
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{
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attribute.null_values = T(null_value.get<NearestFieldType<T>>());
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const auto & null_value_ref = std::get<T>(attribute.null_values);
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attribute.arrays.emplace<ContainerType<T>>(initial_array_size, null_value_ref);
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}
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template <>
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void FlatDictionary::createAttributeImpl<String>(Attribute & attribute, const Field & null_value)
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{
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attribute.string_arena = std::make_unique<Arena>();
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const String & string = null_value.get<String>();
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const char * string_in_arena = attribute.string_arena->insert(string.data(), string.size());
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attribute.null_values.emplace<StringRef>(string_in_arena, string.size());
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attribute.arrays.emplace<ContainerType<StringRef>>(initial_array_size, StringRef(string_in_arena, string.size()));
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}
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FlatDictionary::Attribute FlatDictionary::createAttributeWithType(const AttributeUnderlyingType type, const Field & null_value)
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{
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Attribute attr{type, {}, {}, {}};
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switch (type)
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{
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case AttributeUnderlyingType::utUInt8:
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createAttributeImpl<UInt8>(attr, null_value);
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|
break;
|
|
case AttributeUnderlyingType::utUInt16:
|
|
createAttributeImpl<UInt16>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utUInt32:
|
|
createAttributeImpl<UInt32>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utUInt64:
|
|
createAttributeImpl<UInt64>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utUInt128:
|
|
createAttributeImpl<UInt128>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utInt8:
|
|
createAttributeImpl<Int8>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utInt16:
|
|
createAttributeImpl<Int16>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utInt32:
|
|
createAttributeImpl<Int32>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utInt64:
|
|
createAttributeImpl<Int64>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utFloat32:
|
|
createAttributeImpl<Float32>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utFloat64:
|
|
createAttributeImpl<Float64>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utString:
|
|
createAttributeImpl<String>(attr, null_value);
|
|
break;
|
|
|
|
case AttributeUnderlyingType::utDecimal32:
|
|
createAttributeImpl<Decimal32>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utDecimal64:
|
|
createAttributeImpl<Decimal64>(attr, null_value);
|
|
break;
|
|
case AttributeUnderlyingType::utDecimal128:
|
|
createAttributeImpl<Decimal128>(attr, null_value);
|
|
break;
|
|
}
|
|
|
|
return attr;
|
|
}
|
|
|
|
|
|
template <typename AttributeType, typename OutputType, typename ValueSetter, typename DefaultGetter>
|
|
void FlatDictionary::getItemsImpl(
|
|
const Attribute & attribute, const PaddedPODArray<Key> & ids, ValueSetter && set_value, DefaultGetter && get_default) const
|
|
{
|
|
const auto & attr = std::get<ContainerType<AttributeType>>(attribute.arrays);
|
|
const auto rows = ext::size(ids);
|
|
|
|
for (const auto row : ext::range(0, rows))
|
|
{
|
|
const auto id = ids[row];
|
|
set_value(row, id < ext::size(attr) && loaded_ids[id] ? static_cast<OutputType>(attr[id]) : get_default(row));
|
|
}
|
|
|
|
query_count.fetch_add(rows, std::memory_order_relaxed);
|
|
}
|
|
|
|
template <typename T>
|
|
void FlatDictionary::resize(Attribute & attribute, const Key id)
|
|
{
|
|
if (id >= max_array_size)
|
|
throw Exception{full_name + ": identifier should be less than " + toString(max_array_size), ErrorCodes::ARGUMENT_OUT_OF_BOUND};
|
|
|
|
auto & array = std::get<ContainerType<T>>(attribute.arrays);
|
|
if (id >= array.size())
|
|
{
|
|
const size_t elements_count = id + 1; //id=0 -> elements_count=1
|
|
loaded_ids.resize(elements_count, false);
|
|
array.resize_fill(elements_count, std::get<T>(attribute.null_values));
|
|
}
|
|
}
|
|
|
|
template <typename T>
|
|
void FlatDictionary::setAttributeValueImpl(Attribute & attribute, const Key id, const T & value)
|
|
{
|
|
resize<T>(attribute, id);
|
|
auto & array = std::get<ContainerType<T>>(attribute.arrays);
|
|
array[id] = value;
|
|
loaded_ids[id] = true;
|
|
}
|
|
|
|
template <>
|
|
void FlatDictionary::setAttributeValueImpl<String>(Attribute & attribute, const Key id, const String & value)
|
|
{
|
|
resize<StringRef>(attribute, id);
|
|
const auto * string_in_arena = attribute.string_arena->insert(value.data(), value.size());
|
|
auto & array = std::get<ContainerType<StringRef>>(attribute.arrays);
|
|
array[id] = StringRef{string_in_arena, value.size()};
|
|
loaded_ids[id] = true;
|
|
}
|
|
|
|
void FlatDictionary::setAttributeValue(Attribute & attribute, const Key id, const Field & value)
|
|
{
|
|
switch (attribute.type)
|
|
{
|
|
case AttributeUnderlyingType::utUInt8:
|
|
setAttributeValueImpl<UInt8>(attribute, id, value.get<UInt64>());
|
|
break;
|
|
case AttributeUnderlyingType::utUInt16:
|
|
setAttributeValueImpl<UInt16>(attribute, id, value.get<UInt64>());
|
|
break;
|
|
case AttributeUnderlyingType::utUInt32:
|
|
setAttributeValueImpl<UInt32>(attribute, id, value.get<UInt64>());
|
|
break;
|
|
case AttributeUnderlyingType::utUInt64:
|
|
setAttributeValueImpl<UInt64>(attribute, id, value.get<UInt64>());
|
|
break;
|
|
case AttributeUnderlyingType::utUInt128:
|
|
setAttributeValueImpl<UInt128>(attribute, id, value.get<UInt128>());
|
|
break;
|
|
case AttributeUnderlyingType::utInt8:
|
|
setAttributeValueImpl<Int8>(attribute, id, value.get<Int64>());
|
|
break;
|
|
case AttributeUnderlyingType::utInt16:
|
|
setAttributeValueImpl<Int16>(attribute, id, value.get<Int64>());
|
|
break;
|
|
case AttributeUnderlyingType::utInt32:
|
|
setAttributeValueImpl<Int32>(attribute, id, value.get<Int64>());
|
|
break;
|
|
case AttributeUnderlyingType::utInt64:
|
|
setAttributeValueImpl<Int64>(attribute, id, value.get<Int64>());
|
|
break;
|
|
case AttributeUnderlyingType::utFloat32:
|
|
setAttributeValueImpl<Float32>(attribute, id, value.get<Float64>());
|
|
break;
|
|
case AttributeUnderlyingType::utFloat64:
|
|
setAttributeValueImpl<Float64>(attribute, id, value.get<Float64>());
|
|
break;
|
|
case AttributeUnderlyingType::utString:
|
|
setAttributeValueImpl<String>(attribute, id, value.get<String>());
|
|
break;
|
|
|
|
case AttributeUnderlyingType::utDecimal32:
|
|
setAttributeValueImpl<Decimal32>(attribute, id, value.get<Decimal32>());
|
|
break;
|
|
case AttributeUnderlyingType::utDecimal64:
|
|
setAttributeValueImpl<Decimal64>(attribute, id, value.get<Decimal64>());
|
|
break;
|
|
case AttributeUnderlyingType::utDecimal128:
|
|
setAttributeValueImpl<Decimal128>(attribute, id, value.get<Decimal128>());
|
|
break;
|
|
}
|
|
}
|
|
|
|
|
|
const FlatDictionary::Attribute & FlatDictionary::getAttribute(const std::string & attribute_name) const
|
|
{
|
|
const auto it = attribute_index_by_name.find(attribute_name);
|
|
if (it == std::end(attribute_index_by_name))
|
|
throw Exception{full_name + ": no such attribute '" + attribute_name + "'", ErrorCodes::BAD_ARGUMENTS};
|
|
|
|
return attributes[it->second];
|
|
}
|
|
|
|
|
|
template <typename T>
|
|
void FlatDictionary::has(const Attribute &, const PaddedPODArray<Key> & ids, PaddedPODArray<UInt8> & out) const
|
|
{
|
|
const auto ids_count = ext::size(ids);
|
|
|
|
for (const auto i : ext::range(0, ids_count))
|
|
{
|
|
const auto id = ids[i];
|
|
out[i] = id < loaded_ids.size() && loaded_ids[id];
|
|
}
|
|
|
|
query_count.fetch_add(ids_count, std::memory_order_relaxed);
|
|
}
|
|
|
|
|
|
PaddedPODArray<FlatDictionary::Key> FlatDictionary::getIds() const
|
|
{
|
|
const auto ids_count = ext::size(loaded_ids);
|
|
|
|
PaddedPODArray<Key> ids;
|
|
for (auto idx : ext::range(0, ids_count))
|
|
if (loaded_ids[idx])
|
|
ids.push_back(idx);
|
|
return ids;
|
|
}
|
|
|
|
BlockInputStreamPtr FlatDictionary::getBlockInputStream(const Names & column_names, size_t max_block_size) const
|
|
{
|
|
using BlockInputStreamType = DictionaryBlockInputStream<FlatDictionary, Key>;
|
|
return std::make_shared<BlockInputStreamType>(shared_from_this(), max_block_size, getIds(), column_names);
|
|
}
|
|
|
|
void registerDictionaryFlat(DictionaryFactory & factory)
|
|
{
|
|
auto create_layout = [=](const std::string & full_name,
|
|
const DictionaryStructure & dict_struct,
|
|
const Poco::Util::AbstractConfiguration & config,
|
|
const std::string & config_prefix,
|
|
DictionarySourcePtr source_ptr) -> DictionaryPtr
|
|
{
|
|
if (dict_struct.key)
|
|
throw Exception{"'key' is not supported for dictionary of layout 'flat'", ErrorCodes::UNSUPPORTED_METHOD};
|
|
|
|
if (dict_struct.range_min || dict_struct.range_max)
|
|
throw Exception{full_name
|
|
+ ": elements .structure.range_min and .structure.range_max should be defined only "
|
|
"for a dictionary of layout 'range_hashed'",
|
|
ErrorCodes::BAD_ARGUMENTS};
|
|
|
|
const auto dict_id = StorageID::fromDictionaryConfig(config, config_prefix);
|
|
const DictionaryLifetime dict_lifetime{config, config_prefix + ".lifetime"};
|
|
const bool require_nonempty = config.getBool(config_prefix + ".require_nonempty", false);
|
|
return std::make_unique<FlatDictionary>(dict_id, dict_struct, std::move(source_ptr), dict_lifetime, require_nonempty);
|
|
};
|
|
factory.registerLayout("flat", create_layout, false);
|
|
}
|
|
|
|
|
|
}
|