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315 lines
10 KiB
C++
315 lines
10 KiB
C++
#pragma once
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#include <array>
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#include <Common/SipHash.h>
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#include <Common/Arena.h>
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#include <Common/HashTable/Hash.h>
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#include <Common/memcpySmall.h>
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#include <Common/assert_cast.h>
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#include <Core/Defines.h>
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#include <base/StringRef.h>
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#include <Columns/IColumn.h>
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#include <Columns/ColumnsNumber.h>
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#include <Columns/ColumnFixedString.h>
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#include <Columns/ColumnLowCardinality.h>
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#if defined(__SSSE3__) && !defined(MEMORY_SANITIZER)
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#include <tmmintrin.h>
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#endif
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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 LOGICAL_ERROR;
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}
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using Sizes = std::vector<size_t>;
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/// When packing the values of nullable columns at a given row, we have to
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/// store the fact that these values are nullable or not. This is achieved
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/// by encoding this information as a bitmap. Let S be the size in bytes of
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/// a packed values binary blob and T the number of bytes we may place into
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/// this blob, the size that the bitmap shall occupy in the blob is equal to:
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/// ceil(T/8). Thus we must have: S = T + ceil(T/8). Below we indicate for
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/// each value of S, the corresponding value of T, and the bitmap size:
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///
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/// 32,28,4
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/// 16,14,2
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/// 8,7,1
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/// 4,3,1
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/// 2,1,1
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///
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template <typename T>
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constexpr auto getBitmapSize()
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{
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return
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(sizeof(T) == 32) ?
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4 :
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(sizeof(T) == 16) ?
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2 :
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((sizeof(T) == 8) ?
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1 :
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((sizeof(T) == 4) ?
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1 :
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((sizeof(T) == 2) ?
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1 :
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0)));
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}
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template<typename T, size_t step>
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void fillFixedBatch(size_t num_rows, const T * source, T * dest)
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{
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for (size_t i = 0; i < num_rows; ++i)
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{
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*dest = *source;
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++source;
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dest += step;
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}
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}
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/// Move keys of size T into binary blob, starting from offset.
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/// It is assumed that offset is aligned to sizeof(T).
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/// Example: sizeof(key) = 16, sizeof(T) = 4, offset = 8
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/// out[0] : [--------****----]
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/// out[1] : [--------****----]
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/// ...
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template<typename T, typename Key>
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void fillFixedBatch(size_t keys_size, const ColumnRawPtrs & key_columns, const Sizes & key_sizes, PaddedPODArray<Key> & out, size_t & offset)
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{
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for (size_t i = 0; i < keys_size; ++i)
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{
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if (key_sizes[i] == sizeof(T))
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{
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const auto * column = key_columns[i];
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size_t num_rows = column->size();
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out.resize_fill(num_rows);
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/// Note: here we violate strict aliasing.
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/// It should be ok as log as we do not reffer to any value from `out` before filling.
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const char * source = static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<sizeof(T)>();
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T * dest = reinterpret_cast<T *>(reinterpret_cast<char *>(out.data()) + offset);
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fillFixedBatch<T, sizeof(Key) / sizeof(T)>(num_rows, reinterpret_cast<const T *>(source), dest);
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offset += sizeof(T);
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}
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}
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}
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/// Pack into a binary blob of type T a set of fixed-size keys. Granted that all the keys fit into the
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/// binary blob. Keys are placed starting from the longest one.
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template <typename T>
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void packFixedBatch(size_t keys_size, const ColumnRawPtrs & key_columns, const Sizes & key_sizes, PaddedPODArray<T> & out)
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{
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size_t offset = 0;
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fillFixedBatch<UInt128>(keys_size, key_columns, key_sizes, out, offset);
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fillFixedBatch<UInt64>(keys_size, key_columns, key_sizes, out, offset);
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fillFixedBatch<UInt32>(keys_size, key_columns, key_sizes, out, offset);
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fillFixedBatch<UInt16>(keys_size, key_columns, key_sizes, out, offset);
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fillFixedBatch<UInt8>(keys_size, key_columns, key_sizes, out, offset);
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}
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template <typename T>
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using KeysNullMap = std::array<UInt8, getBitmapSize<T>()>;
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/// Pack into a binary blob of type T a set of fixed-size keys. Granted that all the keys fit into the
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/// binary blob, they are disposed in it consecutively.
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template <typename T, bool has_low_cardinality = false>
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static inline T ALWAYS_INLINE packFixed(
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size_t i, size_t keys_size, const ColumnRawPtrs & key_columns, const Sizes & key_sizes,
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const ColumnRawPtrs * low_cardinality_positions [[maybe_unused]] = nullptr,
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const Sizes * low_cardinality_sizes [[maybe_unused]] = nullptr)
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{
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T key{};
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char * bytes = reinterpret_cast<char *>(&key);
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size_t offset = 0;
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for (size_t j = 0; j < keys_size; ++j)
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{
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size_t index = i;
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const IColumn * column = key_columns[j];
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if constexpr (has_low_cardinality)
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{
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if (const IColumn * positions = (*low_cardinality_positions)[j])
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{
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switch ((*low_cardinality_sizes)[j])
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{
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case sizeof(UInt8): index = assert_cast<const ColumnUInt8 *>(positions)->getElement(i); break;
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case sizeof(UInt16): index = assert_cast<const ColumnUInt16 *>(positions)->getElement(i); break;
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case sizeof(UInt32): index = assert_cast<const ColumnUInt32 *>(positions)->getElement(i); break;
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case sizeof(UInt64): index = assert_cast<const ColumnUInt64 *>(positions)->getElement(i); break;
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default: throw Exception("Unexpected size of index type for low cardinality column.", ErrorCodes::LOGICAL_ERROR);
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}
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}
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}
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switch (key_sizes[j])
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{
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case 1:
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{
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<1>() + index, 1);
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offset += 1;
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}
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break;
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case 2:
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if constexpr (sizeof(T) >= 2) /// To avoid warning about memcpy exceeding object size.
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{
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<2>() + index * 2, 2);
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offset += 2;
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}
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break;
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case 4:
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if constexpr (sizeof(T) >= 4)
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{
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<4>() + index * 4, 4);
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offset += 4;
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}
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break;
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case 8:
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if constexpr (sizeof(T) >= 8)
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{
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<8>() + index * 8, 8);
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offset += 8;
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}
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break;
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default:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(column)->getRawDataBegin<1>() + index * key_sizes[j], key_sizes[j]);
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offset += key_sizes[j];
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}
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}
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return key;
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}
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/// Similar as above but supports nullable values.
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template <typename T>
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static inline T ALWAYS_INLINE packFixed(
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size_t i, size_t keys_size, const ColumnRawPtrs & key_columns, const Sizes & key_sizes,
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const KeysNullMap<T> & bitmap)
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{
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union
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{
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T key;
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char bytes[sizeof(key)] = {};
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};
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size_t offset = 0;
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static constexpr auto bitmap_size = std::tuple_size<KeysNullMap<T>>::value;
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static constexpr bool has_bitmap = bitmap_size > 0;
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if (has_bitmap)
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{
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memcpy(bytes + offset, bitmap.data(), bitmap_size * sizeof(UInt8));
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offset += bitmap_size;
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}
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for (size_t j = 0; j < keys_size; ++j)
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{
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bool is_null;
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if (!has_bitmap)
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is_null = false;
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else
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{
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size_t bucket = j / 8;
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size_t off = j % 8;
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is_null = ((bitmap[bucket] >> off) & 1) == 1;
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}
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if (is_null)
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continue;
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switch (key_sizes[j])
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{
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case 1:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(key_columns[j])->getRawDataBegin<1>() + i, 1);
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offset += 1;
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break;
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case 2:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(key_columns[j])->getRawDataBegin<2>() + i * 2, 2);
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offset += 2;
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break;
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case 4:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(key_columns[j])->getRawDataBegin<4>() + i * 4, 4);
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offset += 4;
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break;
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case 8:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(key_columns[j])->getRawDataBegin<8>() + i * 8, 8);
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offset += 8;
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break;
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default:
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memcpy(bytes + offset, static_cast<const ColumnVectorHelper *>(key_columns[j])->getRawDataBegin<1>() + i * key_sizes[j], key_sizes[j]);
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offset += key_sizes[j];
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}
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}
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return key;
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}
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/// Hash a set of keys into a UInt128 value.
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static inline UInt128 ALWAYS_INLINE hash128( /// NOLINT
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size_t i, size_t keys_size, const ColumnRawPtrs & key_columns)
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{
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UInt128 key;
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SipHash hash;
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for (size_t j = 0; j < keys_size; ++j)
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key_columns[j]->updateHashWithValue(i, hash);
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hash.get128(key);
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return key;
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}
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/** Serialize keys into a continuous chunk of memory.
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*/
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static inline StringRef ALWAYS_INLINE serializeKeysToPoolContiguous( /// NOLINT
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size_t i, size_t keys_size, const ColumnRawPtrs & key_columns, Arena & pool)
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{
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const char * begin = nullptr;
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size_t sum_size = 0;
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for (size_t j = 0; j < keys_size; ++j)
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sum_size += key_columns[j]->serializeValueIntoArena(i, pool, begin).size;
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return {begin, sum_size};
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}
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/** Pack elements with shuffle instruction.
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* See the explanation in ColumnsHashing.h
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*/
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#if defined(__SSSE3__) && !defined(MEMORY_SANITIZER)
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template <typename T>
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static T inline packFixedShuffle(
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const char * __restrict * __restrict srcs,
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size_t num_srcs,
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const size_t * __restrict elem_sizes,
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size_t idx,
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const uint8_t * __restrict masks)
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{
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assert(num_srcs > 0);
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__m128i res = _mm_shuffle_epi8(
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_mm_loadu_si128(reinterpret_cast<const __m128i *>(srcs[0] + elem_sizes[0] * idx)),
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_mm_loadu_si128(reinterpret_cast<const __m128i *>(masks)));
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for (size_t i = 1; i < num_srcs; ++i)
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{
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res = _mm_xor_si128(res,
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_mm_shuffle_epi8(
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_mm_loadu_si128(reinterpret_cast<const __m128i *>(srcs[i] + elem_sizes[i] * idx)),
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_mm_loadu_si128(reinterpret_cast<const __m128i *>(&masks[i * sizeof(T)]))));
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}
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T out;
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__builtin_memcpy(&out, &res, sizeof(T));
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return out;
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}
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#endif
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}
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