ClickHouse/dbms/src/Columns/ColumnUnique.h

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#pragma once
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#include <Columns/IColumnUnique.h>
#include <Columns/ReverseIndex.h>
#include <Columns/ColumnVector.h>
#include <Columns/ColumnNullable.h>
#include <Columns/ColumnString.h>
#include <Columns/ColumnFixedString.h>
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#include <DataTypes/DataTypeNullable.h>
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#include <DataTypes/NumberTraits.h>
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#include <Common/typeid_cast.h>
#include <ext/range.h>
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namespace DB
{
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template <typename ColumnType>
class ColumnUnique final : public COWPtrHelper<IColumnUnique, ColumnUnique<ColumnType>>
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{
friend class COWPtrHelper<IColumnUnique, ColumnUnique<ColumnType>>;
private:
explicit ColumnUnique(MutableColumnPtr && holder, bool is_nullable);
explicit ColumnUnique(const IDataType & type);
ColumnUnique(const ColumnUnique & other);
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public:
MutableColumnPtr cloneEmpty() const override;
const ColumnPtr & getNestedColumn() const override;
const ColumnPtr & getNestedNotNullableColumn() const override { return column_holder; }
size_t uniqueInsert(const Field & x) override;
size_t uniqueInsertFrom(const IColumn & src, size_t n) override;
MutableColumnPtr uniqueInsertRangeFrom(const IColumn & src, size_t start, size_t length) override;
IColumnUnique::IndexesWithOverflow uniqueInsertRangeWithOverflow(const IColumn & src, size_t start, size_t length,
size_t max_dictionary_size) override;
size_t uniqueInsertData(const char * pos, size_t length) override;
size_t uniqueInsertDataWithTerminatingZero(const char * pos, size_t length) override;
size_t uniqueDeserializeAndInsertFromArena(const char * pos, const char *& new_pos) override;
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size_t getDefaultValueIndex() const override { return is_nullable ? 1 : 0; }
size_t getNullValueIndex() const override;
bool canContainNulls() const override { return is_nullable; }
Field operator[](size_t n) const override { return (*getNestedColumn())[n]; }
void get(size_t n, Field & res) const override { getNestedColumn()->get(n, res); }
StringRef getDataAt(size_t n) const override { return getNestedColumn()->getDataAt(n); }
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StringRef getDataAtWithTerminatingZero(size_t n) const override
{
return getNestedColumn()->getDataAtWithTerminatingZero(n);
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}
UInt64 get64(size_t n) const override { return getNestedColumn()->get64(n); }
UInt64 getUInt(size_t n) const override { return getNestedColumn()->getUInt(n); }
Int64 getInt(size_t n) const override { return getNestedColumn()->getInt(n); }
bool isNullAt(size_t n) const override { return is_nullable && n == getNullValueIndex(); }
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StringRef serializeValueIntoArena(size_t n, Arena & arena, char const *& begin) const override
{
return column_holder->serializeValueIntoArena(n, arena, begin);
}
void updateHashWithValue(size_t n, SipHash & hash) const override
{
return getNestedColumn()->updateHashWithValue(n, hash);
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}
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int compareAt(size_t n, size_t m, const IColumn & rhs, int nan_direction_hint) const override
{
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auto & column_unique = static_cast<const IColumnUnique &>(rhs);
return getNestedColumn()->compareAt(n, m, *column_unique.getNestedColumn(), nan_direction_hint);
}
void getExtremes(Field & min, Field & max) const override { column_holder->getExtremes(min, max); }
bool valuesHaveFixedSize() const override { return column_holder->valuesHaveFixedSize(); }
bool isFixedAndContiguous() const override { return column_holder->isFixedAndContiguous(); }
size_t sizeOfValueIfFixed() const override { return column_holder->sizeOfValueIfFixed(); }
bool isNumeric() const override { return column_holder->isNumeric(); }
size_t byteSize() const override { return column_holder->byteSize(); }
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size_t allocatedBytes() const override
{
return column_holder->allocatedBytes()
+ index.allocatedBytes()
+ (cached_null_mask ? cached_null_mask->allocatedBytes() : 0);
}
void forEachSubcolumn(IColumn::ColumnCallback callback) override
{
callback(column_holder);
index.setColumn(getRawColumnPtr());
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}
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private:
ColumnPtr column_holder;
bool is_nullable;
ReverseIndex<UInt64, ColumnType> index;
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/// For DataTypeNullable, stores null map.
mutable ColumnPtr cached_null_mask;
mutable ColumnPtr cached_column_nullable;
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static size_t numSpecialValues(bool is_nullable) { return is_nullable ? 2 : 1; }
size_t numSpecialValues() const { return numSpecialValues(is_nullable); }
ColumnType * getRawColumnPtr() { return static_cast<ColumnType *>(column_holder->assumeMutable().get()); }
const ColumnType * getRawColumnPtr() const { return static_cast<const ColumnType *>(column_holder.get()); }
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template <typename IndexType>
MutableColumnPtr uniqueInsertRangeImpl(
const IColumn & src,
size_t start,
size_t length,
size_t num_added_rows,
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typename ColumnVector<IndexType>::MutablePtr && positions_column,
ReverseIndex<UInt64, ColumnType> * secondary_index,
size_t max_dictionary_size);
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};
template <typename ColumnType>
MutableColumnPtr ColumnUnique<ColumnType>::cloneEmpty() const
{
return ColumnUnique<ColumnType>::create(column_holder->cloneResized(numSpecialValues()), is_nullable);
}
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template <typename ColumnType>
ColumnUnique<ColumnType>::ColumnUnique(const ColumnUnique & other)
: column_holder(other.column_holder)
, is_nullable(other.is_nullable)
, index(numSpecialValues(is_nullable), 0)
{
index.setColumn(getRawColumnPtr());
}
template <typename ColumnType>
ColumnUnique<ColumnType>::ColumnUnique(const IDataType & type)
: is_nullable(type.isNullable())
, index(numSpecialValues(is_nullable), 0)
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{
const auto & holder_type = is_nullable ? *static_cast<const DataTypeNullable &>(type).getNestedType() : type;
column_holder = holder_type.createColumn()->cloneResized(numSpecialValues());
index.setColumn(getRawColumnPtr());
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}
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template <typename ColumnType>
ColumnUnique<ColumnType>::ColumnUnique(MutableColumnPtr && holder, bool is_nullable)
: column_holder(std::move(holder))
, is_nullable(is_nullable)
, index(numSpecialValues(is_nullable), 0)
{
if (column_holder->size() < numSpecialValues())
throw Exception("Too small holder column for ColumnUnique.", ErrorCodes::ILLEGAL_COLUMN);
if (column_holder->isColumnNullable())
throw Exception("Holder column for ColumnUnique can't be nullable.", ErrorCodes::ILLEGAL_COLUMN);
index.setColumn(getRawColumnPtr());
}
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template <typename ColumnType>
const ColumnPtr & ColumnUnique<ColumnType>::getNestedColumn() const
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{
if (is_nullable)
{
size_t size = getRawColumnPtr()->size();
if (!cached_null_mask)
{
ColumnUInt8::MutablePtr null_mask = ColumnUInt8::create(size, UInt8(0));
null_mask->getData()[getNullValueIndex()] = 1;
cached_null_mask = std::move(null_mask);
cached_column_nullable = ColumnNullable::create(column_holder, cached_null_mask);
}
if (cached_null_mask->size() != size)
{
MutableColumnPtr null_mask = (*std::move(cached_null_mask)).mutate();
static_cast<ColumnUInt8 &>(*null_mask).getData().resize_fill(size);
cached_null_mask = std::move(null_mask);
cached_column_nullable = ColumnNullable::create(column_holder, cached_null_mask);
}
return cached_column_nullable;
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}
return column_holder;
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::getNullValueIndex() const
{
if (!is_nullable)
throw Exception("ColumnUnique can't contain null values.", ErrorCodes::LOGICAL_ERROR);
return 0;
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::uniqueInsert(const Field & x)
{
if (x.getType() == Field::Types::Null)
return getNullValueIndex();
auto column = getRawColumnPtr();
auto prev_size = static_cast<UInt64>(column->size());
if ((*column)[getDefaultValueIndex()] == x)
return getDefaultValueIndex();
column->insert(x);
auto pos = index.insert(prev_size);
if (pos != prev_size)
column->popBack(1);
return pos;
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::uniqueInsertFrom(const IColumn & src, size_t n)
{
if (is_nullable && src.isNullAt(n))
return getNullValueIndex();
if (auto * nullable = typeid_cast<const ColumnNullable *>(&src))
return uniqueInsertFrom(nullable->getNestedColumn(), n);
auto ref = src.getDataAt(n);
return uniqueInsertData(ref.data, ref.size);
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::uniqueInsertData(const char * pos, size_t length)
{
auto column = getRawColumnPtr();
if (column->getDataAt(getDefaultValueIndex()) == StringRef(pos, length))
return getDefaultValueIndex();
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UInt64 size = column->size();
UInt64 insertion_point = index.getInsertionPoint(StringRef(pos, length));
if (insertion_point == size)
{
column->insertData(pos, length);
index.insertFromLastRow();
}
return insertion_point;
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::uniqueInsertDataWithTerminatingZero(const char * pos, size_t length)
{
if (std::is_same<ColumnType, ColumnString>::value)
return uniqueInsertData(pos, length - 1);
if (column_holder->valuesHaveFixedSize())
return uniqueInsertData(pos, length);
/// Don't know if data actually has terminating zero. So, insert it firstly.
auto column = getRawColumnPtr();
size_t prev_size = column->size();
column->insertDataWithTerminatingZero(pos, length);
if (column->compareAt(getDefaultValueIndex(), prev_size, *column, 1) == 0)
{
column->popBack(1);
return getDefaultValueIndex();
}
auto position = index.insert(prev_size);
if (position != prev_size)
column->popBack(1);
return static_cast<size_t>(position);
}
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template <typename ColumnType>
size_t ColumnUnique<ColumnType>::uniqueDeserializeAndInsertFromArena(const char * pos, const char *& new_pos)
{
auto column = getRawColumnPtr();
size_t prev_size = column->size();
new_pos = column->deserializeAndInsertFromArena(pos);
if (column->compareAt(getDefaultValueIndex(), prev_size, *column, 1) == 0)
{
column->popBack(1);
return getDefaultValueIndex();
}
auto index_pos = index.insert(prev_size);
if (index_pos != prev_size)
column->popBack(1);
return static_cast<size_t>(index_pos);
}
template <typename IndexType>
static void checkIndexes(const ColumnVector<IndexType> & indexes, size_t max_dictionary_size)
{
auto & data = indexes.getData();
for (size_t i = 0; i < data.size(); ++i)
{
if (data[i] >= max_dictionary_size)
{
throw Exception("Found index " + toString(data[i]) + " at position " + toString(i)
+ " which is grated or equal than dictionary size " + toString(max_dictionary_size),
ErrorCodes::LOGICAL_ERROR);
}
}
}
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template <typename ColumnType>
template <typename IndexType>
MutableColumnPtr ColumnUnique<ColumnType>::uniqueInsertRangeImpl(
const IColumn & src,
size_t start,
size_t length,
size_t num_added_rows,
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typename ColumnVector<IndexType>::MutablePtr && positions_column,
ReverseIndex<UInt64, ColumnType> * secondary_index,
size_t max_dictionary_size)
{
const ColumnType * src_column;
const NullMap * null_map = nullptr;
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auto & positions = positions_column->getData();
auto update_position = [&](UInt64 & next_position) -> MutableColumnPtr
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{
constexpr auto next_size = NumberTraits::nextSize(sizeof(IndexType));
using SuperiorIndexType = typename NumberTraits::Construct<false, false, next_size>::Type;
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++next_position;
if (next_position > std::numeric_limits<IndexType>::max())
{
if (sizeof(SuperiorIndexType) == sizeof(IndexType))
throw Exception("Can't find superior index type for type " + demangle(typeid(IndexType).name()),
ErrorCodes::LOGICAL_ERROR);
auto expanded_column = ColumnVector<SuperiorIndexType>::create(length);
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auto & expanded_data = expanded_column->getData();
for (size_t i = 0; i < num_added_rows; ++i)
expanded_data[i] = positions[i];
return uniqueInsertRangeImpl<SuperiorIndexType>(
src,
start,
length,
num_added_rows,
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std::move(expanded_column),
secondary_index,
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max_dictionary_size);
}
return nullptr;
};
if (auto nullable_column = typeid_cast<const ColumnNullable *>(&src))
{
src_column = typeid_cast<const ColumnType *>(&nullable_column->getNestedColumn());
null_map = &nullable_column->getNullMapData();
}
else
src_column = typeid_cast<const ColumnType *>(&src);
if (src_column == nullptr)
throw Exception("Invalid column type for ColumnUnique::insertRangeFrom. Expected " + column_holder->getName() +
", got " + src.getName(), ErrorCodes::ILLEGAL_COLUMN);
auto column = getRawColumnPtr();
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UInt64 next_position = column->size();
if (secondary_index)
next_position += secondary_index->size();
auto check_inserted_position = [&next_position](UInt64 inserted_position)
{
if (inserted_position != next_position)
throw Exception("Inserted position " + toString(inserted_position)
+ " is not equal with expected " + toString(next_position), ErrorCodes::LOGICAL_ERROR);
};
auto insert_key = [&](const StringRef & ref, ReverseIndex<UInt64, ColumnType> * cur_index)
{
positions[num_added_rows] = next_position;
cur_index->getColumn()->insertData(ref.data, ref.size);
auto inserted_pos = cur_index->insertFromLastRow();
check_inserted_position(inserted_pos);
return update_position(next_position);
};
for (; num_added_rows < length; ++num_added_rows)
{
auto row = start + num_added_rows;
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if (null_map && (*null_map)[row])
positions[num_added_rows] = getNullValueIndex();
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else if (column->compareAt(getDefaultValueIndex(), row, *src_column, 1) == 0)
positions[num_added_rows] = getDefaultValueIndex();
else
{
auto ref = src_column->getDataAt(row);
auto cur_index = &index;
bool inserted = false;
while (!inserted)
{
auto insertion_point = cur_index->getInsertionPoint(ref);
if (insertion_point == cur_index->lastInsertionPoint())
{
if (secondary_index && cur_index != secondary_index && next_position >= max_dictionary_size)
{
cur_index = secondary_index;
continue;
}
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if (auto res = insert_key(ref, cur_index))
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return res;
}
else
positions[num_added_rows] = insertion_point;
inserted = true;
}
}
}
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// checkIndexes(*positions_column, column->size() + (overflowed_keys ? overflowed_keys->size() : 0));
return std::move(positions_column);
}
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template <typename ColumnType>
MutableColumnPtr ColumnUnique<ColumnType>::uniqueInsertRangeFrom(const IColumn & src, size_t start, size_t length)
{
auto callForType = [this, &src, start, length](auto x) -> MutableColumnPtr
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{
size_t size = getRawColumnPtr()->size();
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using IndexType = decltype(x);
if (size <= std::numeric_limits<IndexType>::max())
{
auto positions = ColumnVector<IndexType>::create(length);
return this->uniqueInsertRangeImpl<IndexType>(src, start, length, 0, std::move(positions), nullptr, 0);
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}
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return nullptr;
};
MutableColumnPtr positions_column;
if (!positions_column)
positions_column = callForType(UInt8());
if (!positions_column)
positions_column = callForType(UInt16());
if (!positions_column)
positions_column = callForType(UInt32());
if (!positions_column)
positions_column = callForType(UInt64());
if (!positions_column)
throw Exception("Can't find index type for ColumnUnique", ErrorCodes::LOGICAL_ERROR);
return positions_column;
}
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template <typename ColumnType>
IColumnUnique::IndexesWithOverflow ColumnUnique<ColumnType>::uniqueInsertRangeWithOverflow(
const IColumn & src,
size_t start,
size_t length,
size_t max_dictionary_size)
{
auto overflowed_keys = column_holder->cloneEmpty();
auto overflowed_keys_ptr = typeid_cast<ColumnType *>(overflowed_keys.get());
if (!overflowed_keys_ptr)
throw Exception("Invalid keys type for ColumnUnique.", ErrorCodes::LOGICAL_ERROR);
auto callForType = [this, &src, start, length, overflowed_keys_ptr, max_dictionary_size](auto x) -> MutableColumnPtr
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{
size_t size = getRawColumnPtr()->size();
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using IndexType = decltype(x);
if (size <= std::numeric_limits<IndexType>::max())
{
auto positions = ColumnVector<IndexType>::create(length);
ReverseIndex<UInt64, ColumnType> secondary_index(0, max_dictionary_size);
secondary_index.setColumn(overflowed_keys_ptr);
return this->uniqueInsertRangeImpl<IndexType>(src, start, length, 0, std::move(positions),
&secondary_index, max_dictionary_size);
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}
return nullptr;
};
MutableColumnPtr positions_column;
if (!positions_column)
positions_column = callForType(UInt8());
if (!positions_column)
positions_column = callForType(UInt16());
if (!positions_column)
positions_column = callForType(UInt32());
if (!positions_column)
positions_column = callForType(UInt64());
if (!positions_column)
throw Exception("Can't find index type for ColumnUnique", ErrorCodes::LOGICAL_ERROR);
IColumnUnique::IndexesWithOverflow indexes_with_overflow;
indexes_with_overflow.indexes = std::move(positions_column);
indexes_with_overflow.overflowed_keys = std::move(overflowed_keys);
return indexes_with_overflow;
}
};