ClickHouse/dbms/src/DataStreams/VersionedCollapsingSortedBlockInputStream.h
2018-09-05 12:47:57 +03:00

215 lines
5.7 KiB
C++

#pragma once
#include <common/logger_useful.h>
#include <DataStreams/MergingSortedBlockInputStream.h>
#include <deque>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
static const size_t MAX_ROWS_IN_MULTIVERSION_QUEUE = 8192;
/* Deque with fixed memory size. Allows pushing gaps.
* frontGap() returns the number of gaps were inserted before front.
*
* This structure may be implemented via std::deque, but
* - Deque uses fixed amount of memory which is allocated in constructor. No more allocations are performed.
* - Gaps are not stored as separate values in queue, which is more memory efficient.
* - Deque is responsible for gaps invariant: after removing element, moves gaps into neighbor cell.
*
* Note: empty deque may have non-zero front gap.
*/
template <typename T>
class FixedSizeDequeWithGaps
{
public:
struct ValueWithGap
{
/// The number of gaps before current element. The number of gaps after last element stores into end cell.
size_t gap;
/// Store char[] instead of T in order to make ValueWithGap POD.
/// Call placement constructors after push and and destructors after pop.
char value[sizeof(T)];
};
explicit FixedSizeDequeWithGaps(size_t size)
{
container.resize_fill(size + 1);
}
~FixedSizeDequeWithGaps()
{
auto destruct_range = [this](size_t from, size_t to)
{
for (size_t i = from; i < to; ++i)
destructValue(i);
};
if (begin <= end)
destruct_range(begin, end);
else
{
destruct_range(0, end);
destruct_range(begin, container.size());
}
}
void pushBack(const T & value)
{
checkEnoughSpaceToInsert();
constructValue(end, value);
moveRight(end);
container[end].gap = 0;
}
void pushGap(size_t count) { container[end].gap += count; }
void popBack()
{
checkHasValuesToRemove();
size_t curr_gap = container[end].gap;
moveLeft(end);
destructValue(end);
container[end].gap += curr_gap;
}
void popFront()
{
checkHasValuesToRemove();
destructValue(begin);
moveRight(begin);
}
T & front()
{
checkHasValuesToGet();
return getValue(begin);
}
const T & front() const
{
checkHasValuesToGet();
return getValue(begin);
}
const T & back() const
{
size_t ps = end;
moveLeft(ps);
return getValue(ps);
}
size_t & frontGap() { return container[begin].gap; }
const size_t & frontGap() const { return container[begin].gap; }
size_t size() const
{
if (begin <= end)
return end - begin;
return end + (container.size() - begin);
}
bool empty() const { return begin == end; }
private:
PODArray<ValueWithGap> container;
size_t gap_before_first = 0;
size_t begin = 0;
size_t end = 0;
void constructValue(size_t index, const T & value) { new (container[index].value) T(value); }
void destructValue(size_t index) { reinterpret_cast<T *>(container[index].value)->~T(); }
T & getValue(size_t index) { return *reinterpret_cast<T *>(container[index].value); }
const T & getValue(size_t index) const { return *reinterpret_cast<const T *>(container[index].value); }
void moveRight(size_t & index) const
{
++index;
if (index == container.size())
index = 0;
}
void moveLeft(size_t & index) const
{
if (index == 0)
index = container.size();
--index;
}
void checkEnoughSpaceToInsert() const
{
if (size() + 1 == container.size())
throw Exception("Not enough space to insert into FixedSizeDequeWithGaps with capacity "
+ toString(container.size() - 1), ErrorCodes::LOGICAL_ERROR);
}
void checkHasValuesToRemove() const
{
if (empty())
throw Exception("Cannot remove from empty FixedSizeDequeWithGaps", ErrorCodes::LOGICAL_ERROR);
}
void checkHasValuesToGet() const
{
if (empty())
throw Exception("Cannot get value from empty FixedSizeDequeWithGaps", ErrorCodes::LOGICAL_ERROR);
}
};
class VersionedCollapsingSortedBlockInputStream : public MergingSortedBlockInputStream
{
public:
/// Don't need version column. It's in primary key.
/// max_rows_in_queue should be about max_block_size_ if we won't store a lot of extra blocks (RowRef holds SharedBlockPtr).
VersionedCollapsingSortedBlockInputStream(
const BlockInputStreams & inputs_, const SortDescription & description_,
const String & sign_column_, size_t max_block_size_,
WriteBuffer * out_row_sources_buf_ = nullptr);
String getName() const override { return "VersionedCollapsingSorted"; }
protected:
/// Can return 1 more records than max_block_size.
Block readImpl() override;
private:
size_t sign_column_number = 0;
Logger * log = &Logger::get("VersionedCollapsingSortedBlockInputStream");
/// Read is finished.
bool finished = false;
Int8 sign_in_queue = 0;
const size_t max_rows_in_queue;
/// Rows with the same primary key and sign.
FixedSizeDequeWithGaps<RowRef> current_keys;
size_t blocks_written = 0;
/// Sources of rows for VERTICAL merge algorithm. Size equals to (size + number of gaps) in current_keys.
std::queue<RowSourcePart> current_row_sources;
void merge(MutableColumns & merged_columns, std::priority_queue<SortCursor> & queue);
/// Output to result row for the current primary key.
void insertRow(size_t skip_rows, const RowRef & row, MutableColumns & merged_columns);
void insertGap(size_t gap_size);
};
}