ClickHouse/src/Interpreters/Set.cpp

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#include <optional>
#include <Core/Field.h>
#include <Common/FieldVisitors.h>
#include <Core/Row.h>
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#include <Columns/ColumnsNumber.h>
#include <Columns/ColumnTuple.h>
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#include <Common/typeid_cast.h>
#include <DataStreams/IBlockInputStream.h>
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#include <DataTypes/DataTypeTuple.h>
#include <DataTypes/DataTypeNullable.h>
#include <Parsers/ASTExpressionList.h>
#include <Parsers/ASTFunction.h>
#include <Parsers/ASTLiteral.h>
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#include <Interpreters/Set.h>
#include <Interpreters/convertFieldToType.h>
#include <Interpreters/evaluateConstantExpression.h>
#include <Interpreters/NullableUtils.h>
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#include <Interpreters/sortBlock.h>
#include <Interpreters/Context.h>
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#include <Storages/MergeTree/KeyCondition.h>
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#include <ext/range.h>
#include <DataTypes/DataTypeLowCardinality.h>
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namespace DB
{
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namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
extern const int SET_SIZE_LIMIT_EXCEEDED;
extern const int TYPE_MISMATCH;
extern const int NUMBER_OF_COLUMNS_DOESNT_MATCH;
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}
template <typename Method>
void NO_INLINE Set::insertFromBlockImpl(
Method & method,
const ColumnRawPtrs & key_columns,
size_t rows,
SetVariants & variants,
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ConstNullMapPtr null_map,
ColumnUInt8::Container * out_filter)
{
if (null_map)
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{
if (out_filter)
insertFromBlockImplCase<Method, true, true>(method, key_columns, rows, variants, null_map, out_filter);
else
insertFromBlockImplCase<Method, true, false>(method, key_columns, rows, variants, null_map, out_filter);
}
else
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{
if (out_filter)
insertFromBlockImplCase<Method, false, true>(method, key_columns, rows, variants, null_map, out_filter);
else
insertFromBlockImplCase<Method, false, false>(method, key_columns, rows, variants, null_map, out_filter);
}
}
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template <typename Method, bool has_null_map, bool build_filter>
void NO_INLINE Set::insertFromBlockImplCase(
Method & method,
const ColumnRawPtrs & key_columns,
size_t rows,
SetVariants & variants,
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[[maybe_unused]] ConstNullMapPtr null_map,
[[maybe_unused]] ColumnUInt8::Container * out_filter)
{
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typename Method::State state(key_columns, key_sizes, nullptr);
/// For all rows
for (size_t i = 0; i < rows; ++i)
{
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if constexpr (has_null_map)
{
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if ((*null_map)[i])
{
has_null = true;
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if constexpr (build_filter)
{
(*out_filter)[i] = false;
}
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continue;
}
}
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[[maybe_unused]] auto emplace_result = state.emplaceKey(method.data, i, variants.string_pool);
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if constexpr (build_filter)
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(*out_filter)[i] = emplace_result.isInserted();
}
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}
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void Set::setHeader(const Block & header)
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{
std::unique_lock lock(rwlock);
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if (!empty())
return;
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keys_size = header.columns();
ColumnRawPtrs key_columns;
key_columns.reserve(keys_size);
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data_types.reserve(keys_size);
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set_elements_types.reserve(keys_size);
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/// The constant columns to the right of IN are not supported directly. For this, they first materialize.
Columns materialized_columns;
/// Remember the columns we will work with
for (size_t i = 0; i < keys_size; ++i)
{
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materialized_columns.emplace_back(header.safeGetByPosition(i).column->convertToFullColumnIfConst());
key_columns.emplace_back(materialized_columns.back().get());
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data_types.emplace_back(header.safeGetByPosition(i).type);
set_elements_types.emplace_back(header.safeGetByPosition(i).type);
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/// Convert low cardinality column to full.
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if (const auto * low_cardinality_type = typeid_cast<const DataTypeLowCardinality *>(data_types.back().get()))
{
data_types.back() = low_cardinality_type->getDictionaryType();
materialized_columns.emplace_back(key_columns.back()->convertToFullColumnIfLowCardinality());
key_columns.back() = materialized_columns.back().get();
}
}
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/// We will insert to the Set only keys, where all components are not NULL.
ConstNullMapPtr null_map{};
ColumnPtr null_map_holder = extractNestedColumnsAndNullMap(key_columns, null_map, transform_null_in);
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if (fill_set_elements)
{
/// Create empty columns with set values in advance.
/// It is needed because set may be empty, so method 'insertFromBlock' will be never called.
set_elements.reserve(keys_size);
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for (const auto & type : set_elements_types)
set_elements.emplace_back(type->createColumn());
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}
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/// Choose data structure to use for the set.
data.init(data.chooseMethod(key_columns, key_sizes));
}
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bool Set::insertFromBlock(const Block & block)
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{
std::unique_lock lock(rwlock);
if (empty())
throw Exception("Method Set::setHeader must be called before Set::insertFromBlock", ErrorCodes::LOGICAL_ERROR);
ColumnRawPtrs key_columns;
key_columns.reserve(keys_size);
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/// The constant columns to the right of IN are not supported directly. For this, they first materialize.
Columns materialized_columns;
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/// Remember the columns we will work with
for (size_t i = 0; i < keys_size; ++i)
{
materialized_columns.emplace_back(block.safeGetByPosition(i).column->convertToFullColumnIfConst()->convertToFullColumnIfLowCardinality());
key_columns.emplace_back(materialized_columns.back().get());
}
size_t rows = block.rows();
/// We will insert to the Set only keys, where all components are not NULL.
ConstNullMapPtr null_map{};
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ColumnPtr null_map_holder = extractNestedColumnsAndNullMap(key_columns, null_map, transform_null_in);
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/// Filter to extract distinct values from the block.
ColumnUInt8::MutablePtr filter;
if (fill_set_elements)
filter = ColumnUInt8::create(block.rows());
switch (data.type)
{
case SetVariants::Type::EMPTY:
break;
#define M(NAME) \
case SetVariants::Type::NAME: \
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insertFromBlockImpl(*data.NAME, key_columns, rows, data, null_map, filter ? &filter->getData() : nullptr); \
break;
APPLY_FOR_SET_VARIANTS(M)
#undef M
}
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if (fill_set_elements)
{
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for (size_t i = 0; i < keys_size; ++i)
{
auto filtered_column = block.getByPosition(i).column->filter(filter->getData(), rows);
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if (set_elements[i]->empty())
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set_elements[i] = filtered_column;
else
set_elements[i]->insertRangeFrom(*filtered_column, 0, filtered_column->size());
}
}
return limits.check(getTotalRowCount(), getTotalByteCount(), "IN-set", ErrorCodes::SET_SIZE_LIMIT_EXCEEDED);
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}
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ColumnPtr Set::execute(const Block & block, bool negative) const
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{
size_t num_key_columns = block.columns();
if (0 == num_key_columns)
throw Exception("Logical error: no columns passed to Set::execute method.", ErrorCodes::LOGICAL_ERROR);
auto res = ColumnUInt8::create();
ColumnUInt8::Container & vec_res = res->getData();
vec_res.resize(block.safeGetByPosition(0).column->size());
if (vec_res.empty())
return res;
std::shared_lock lock(rwlock);
/// If the set is empty.
if (data_types.empty())
{
if (negative)
memset(vec_res.data(), 1, vec_res.size());
else
memset(vec_res.data(), 0, vec_res.size());
return res;
}
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checkColumnsNumber(num_key_columns);
/// Remember the columns we will work with. Also check that the data types are correct.
ColumnRawPtrs key_columns;
key_columns.reserve(num_key_columns);
/// The constant columns to the left of IN are not supported directly. For this, they first materialize.
Columns materialized_columns;
for (size_t i = 0; i < num_key_columns; ++i)
{
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checkTypesEqual(i, block.safeGetByPosition(i).type);
materialized_columns.emplace_back(block.safeGetByPosition(i).column->convertToFullColumnIfConst());
key_columns.emplace_back() = materialized_columns.back().get();
}
/// We will check existence in Set only for keys, where all components are not NULL.
ConstNullMapPtr null_map{};
ColumnPtr null_map_holder = extractNestedColumnsAndNullMap(key_columns, null_map, transform_null_in);
executeOrdinary(key_columns, vec_res, negative, null_map);
return res;
}
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template <typename Method>
void NO_INLINE Set::executeImpl(
Method & method,
const ColumnRawPtrs & key_columns,
ColumnUInt8::Container & vec_res,
bool negative,
size_t rows,
ConstNullMapPtr null_map) const
{
if (null_map)
executeImplCase<Method, true>(method, key_columns, vec_res, negative, rows, null_map);
else
executeImplCase<Method, false>(method, key_columns, vec_res, negative, rows, null_map);
}
template <typename Method, bool has_null_map>
void NO_INLINE Set::executeImplCase(
Method & method,
const ColumnRawPtrs & key_columns,
ColumnUInt8::Container & vec_res,
bool negative,
size_t rows,
ConstNullMapPtr null_map) const
{
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Arena pool;
typename Method::State state(key_columns, key_sizes, nullptr);
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/// NOTE Optimization is not used for consecutive identical strings.
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/// For all rows
for (size_t i = 0; i < rows; ++i)
{
if (has_null_map && (*null_map)[i])
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{
if (transform_null_in && has_null)
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vec_res[i] = !negative;
else
vec_res[i] = negative;
}
else
{
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auto find_result = state.findKey(method.data, i, pool);
vec_res[i] = negative ^ find_result.isFound();
}
}
}
void Set::executeOrdinary(
const ColumnRawPtrs & key_columns,
ColumnUInt8::Container & vec_res,
bool negative,
ConstNullMapPtr null_map) const
{
size_t rows = key_columns[0]->size();
switch (data.type)
{
case SetVariants::Type::EMPTY:
break;
#define M(NAME) \
case SetVariants::Type::NAME: \
executeImpl(*data.NAME, key_columns, vec_res, negative, rows, null_map); \
break;
APPLY_FOR_SET_VARIANTS(M)
#undef M
}
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}
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void Set::checkColumnsNumber(size_t num_key_columns) const
{
if (data_types.size() != num_key_columns)
{
std::stringstream message;
message << "Number of columns in section IN doesn't match. "
<< num_key_columns << " at left, " << data_types.size() << " at right.";
throw Exception(message.str(), ErrorCodes::NUMBER_OF_COLUMNS_DOESNT_MATCH);
}
}
bool Set::areTypesEqual(size_t set_type_idx, const DataTypePtr & other_type) const
{
return removeNullable(recursiveRemoveLowCardinality(data_types[set_type_idx]))->equals(*removeNullable(recursiveRemoveLowCardinality(other_type)));
}
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void Set::checkTypesEqual(size_t set_type_idx, const DataTypePtr & other_type) const
{
if (!this->areTypesEqual(set_type_idx, other_type))
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throw Exception("Types of column " + toString(set_type_idx + 1) + " in section IN don't match: "
+ other_type->getName() + " on the left, "
+ data_types[set_type_idx]->getName() + " on the right", ErrorCodes::TYPE_MISMATCH);
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}
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MergeTreeSetIndex::MergeTreeSetIndex(const Columns & set_elements, std::vector<KeyTuplePositionMapping> && index_mapping_)
: indexes_mapping(std::move(index_mapping_))
{
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std::sort(indexes_mapping.begin(), indexes_mapping.end(),
[](const KeyTuplePositionMapping & l, const KeyTuplePositionMapping & r)
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{
return std::forward_as_tuple(l.key_index, l.tuple_index) < std::forward_as_tuple(r.key_index, r.tuple_index);
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});
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indexes_mapping.erase(std::unique(
indexes_mapping.begin(), indexes_mapping.end(),
[](const KeyTuplePositionMapping & l, const KeyTuplePositionMapping & r)
{
return l.key_index == r.key_index;
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}), indexes_mapping.end());
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size_t tuple_size = indexes_mapping.size();
ordered_set.resize(tuple_size);
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for (size_t i = 0; i < tuple_size; ++i)
ordered_set[i] = set_elements[indexes_mapping[i].tuple_index];
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Block block_to_sort;
SortDescription sort_description;
for (size_t i = 0; i < tuple_size; ++i)
{
block_to_sort.insert({ ordered_set[i], nullptr, "" });
sort_description.emplace_back(i, 1, 1);
}
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sortBlock(block_to_sort, sort_description);
for (size_t i = 0; i < tuple_size; ++i)
ordered_set[i] = block_to_sort.getByPosition(i).column;
}
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/** Return the BoolMask where:
* 1: the intersection of the set and the range is non-empty
* 2: the range contains elements not in the set
*/
BoolMask MergeTreeSetIndex::checkInRange(const std::vector<Range> & key_ranges, const DataTypes & data_types) const
{
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size_t tuple_size = indexes_mapping.size();
ColumnsWithInfinity left_point;
ColumnsWithInfinity right_point;
left_point.reserve(tuple_size);
right_point.reserve(tuple_size);
for (size_t i = 0; i < tuple_size; ++i)
{
left_point.emplace_back(ordered_set[i]->cloneEmpty());
right_point.emplace_back(ordered_set[i]->cloneEmpty());
}
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bool invert_left_infinities = false;
bool invert_right_infinities = false;
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for (size_t i = 0; i < tuple_size; ++i)
{
std::optional<Range> new_range = KeyCondition::applyMonotonicFunctionsChainToRange(
key_ranges[indexes_mapping[i].key_index],
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indexes_mapping[i].functions,
data_types[indexes_mapping[i].key_index]);
if (!new_range)
return {true, true};
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/** A range that ends in (x, y, ..., +inf) exclusive is the same as a range
* that ends in (x, y, ..., -inf) inclusive and vice versa for the left bound.
*/
if (new_range->left_bounded)
{
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if (!new_range->left_included)
invert_left_infinities = true;
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left_point[i].update(new_range->left);
}
else
{
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if (invert_left_infinities)
left_point[i].update(ValueWithInfinity::PLUS_INFINITY);
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else
left_point[i].update(ValueWithInfinity::MINUS_INFINITY);
}
if (new_range->right_bounded)
{
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if (!new_range->right_included)
invert_right_infinities = true;
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right_point[i].update(new_range->right);
}
else
{
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if (invert_right_infinities)
right_point[i].update(ValueWithInfinity::MINUS_INFINITY);
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else
right_point[i].update(ValueWithInfinity::PLUS_INFINITY);
}
}
auto compare = [](const IColumn & lhs, const ValueWithInfinity & rhs, size_t row)
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{
auto type = rhs.getType();
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/// Return inverted infinity sign, because in 'lhs' all values are finite.
if (type != ValueWithInfinity::NORMAL)
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return -static_cast<int>(type);
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return lhs.compareAt(row, 0, rhs.getColumnIfFinite(), 1);
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};
auto less = [this, &compare, tuple_size](size_t row, const auto & point)
{
for (size_t i = 0; i < tuple_size; ++i)
{
int res = compare(*ordered_set[i], point[i], row);
if (res)
return res < 0;
}
return false;
};
auto equals = [this, &compare, tuple_size](size_t row, const auto & point)
{
for (size_t i = 0; i < tuple_size; ++i)
if (compare(*ordered_set[i], point[i], row) != 0)
return false;
return true;
};
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/** Because each hyperrectangle maps to a contiguous sequence of elements
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* laid out in the lexicographically increasing order, the set intersects the range
* if and only if either bound coincides with an element or at least one element
* is between the lower bounds
*/
auto indices = ext::range(0, size());
auto left_lower = std::lower_bound(indices.begin(), indices.end(), left_point, less);
auto right_lower = std::lower_bound(indices.begin(), indices.end(), right_point, less);
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return
{
left_lower != right_lower
|| (left_lower != indices.end() && equals(*left_lower, left_point))
|| (right_lower != indices.end() && equals(*right_lower, right_point)),
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true
};
}
bool MergeTreeSetIndex::hasMonotonicFunctionsChain() const
{
for (const auto & mapping : indexes_mapping)
if (!mapping.functions.empty())
return true;
return false;
}
void ValueWithInfinity::update(const Field & x)
{
/// Keep at most one element in column.
if (!column->empty())
column->popBack(1);
column->insert(x);
type = NORMAL;
}
const IColumn & ValueWithInfinity::getColumnIfFinite() const
{
#ifndef NDEBUG
if (type != NORMAL)
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throw Exception("Trying to get column of infinite type", ErrorCodes::LOGICAL_ERROR);
#endif
return *column;
}
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}