ClickHouse/dbms/src/DataStreams/CollapsingSortedBlockInputStream.cpp

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#include <Common/FieldVisitors.h>
#include <DataStreams/CollapsingSortedBlockInputStream.h>
#include <Columns/ColumnsNumber.h>
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/// Maximum number of messages about incorrect data in the log.
#define MAX_ERROR_MESSAGES 10
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namespace DB
{
namespace ErrorCodes
{
extern const int INCORRECT_DATA;
extern const int LOGICAL_ERROR;
}
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void CollapsingSortedBlockInputStream::reportIncorrectData()
{
std::stringstream s;
s << "Incorrect data: number of rows with sign = 1 (" << count_positive
<< ") differs with number of rows with sign = -1 (" << count_negative
<< ") by more than one (for key: ";
for (size_t i = 0, size = current_key.size(); i < size; ++i)
{
if (i != 0)
s << ", ";
s << applyVisitor(FieldVisitorToString(), (*(*current_key.columns)[i])[current_key.row_num]);
}
s << ").";
/** Fow now we limit ourselves to just logging such situations,
* since the data is generated by external programs.
* With inconsistent data, this is an unavoidable error that can not be easily corrected by admins. Therefore Warning.
*/
LOG_WARNING(log, s.rdbuf());
}
void CollapsingSortedBlockInputStream::insertRows(MutableColumns & merged_columns, size_t & merged_rows)
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{
if (count_positive == 0 && count_negative == 0)
{
/// No input rows have been read.
return;
}
if (last_is_positive || count_positive != count_negative)
{
if (count_positive <= count_negative)
{
++merged_rows;
for (size_t i = 0; i < num_columns; ++i)
merged_columns[i]->insertFrom(*(*first_negative.columns)[i], first_negative.row_num);
if (out_row_sources_buf)
current_row_sources[first_negative_pos].setSkipFlag(false);
}
if (count_positive >= count_negative)
{
++merged_rows;
for (size_t i = 0; i < num_columns; ++i)
merged_columns[i]->insertFrom(*(*last_positive.columns)[i], last_positive.row_num);
if (out_row_sources_buf)
current_row_sources[last_positive_pos].setSkipFlag(false);
}
if (!(count_positive == count_negative || count_positive + 1 == count_negative || count_positive == count_negative + 1))
{
if (count_incorrect_data < MAX_ERROR_MESSAGES)
reportIncorrectData();
++count_incorrect_data;
}
}
if (out_row_sources_buf)
out_row_sources_buf->write(
reinterpret_cast<const char *>(current_row_sources.data()),
current_row_sources.size() * sizeof(RowSourcePart));
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}
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Block CollapsingSortedBlockInputStream::readImpl()
{
if (finished)
return {};
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MutableColumns merged_columns;
init(merged_columns);
if (has_collation)
throw Exception("Logical error: " + getName() + " does not support collations", ErrorCodes::LOGICAL_ERROR);
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if (merged_columns.empty())
return {};
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merge(merged_columns, queue_without_collation);
return header.cloneWithColumns(std::move(merged_columns));
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}
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void CollapsingSortedBlockInputStream::merge(MutableColumns & merged_columns, std::priority_queue<SortCursor> & queue)
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{
size_t merged_rows = 0;
/// Take rows in correct order and put them into `merged_columns` until the rows no more than `max_block_size`
for (; !queue.empty(); ++current_pos)
{
SortCursor current = queue.top();
if (current_key.empty())
setPrimaryKeyRef(current_key, current);
Int8 sign = static_cast<const ColumnInt8 &>(*current->all_columns[sign_column_number]).getData()[current->pos];
setPrimaryKeyRef(next_key, current);
bool key_differs = next_key != current_key;
/// if there are enough rows and the last one is calculated completely
if (key_differs && merged_rows >= max_block_size)
{
++blocks_written;
return;
}
queue.pop();
if (key_differs)
{
/// We write data for the previous primary key.
insertRows(merged_columns, merged_rows);
current_key.swap(next_key);
count_negative = 0;
count_positive = 0;
current_pos = 0;
first_negative_pos = 0;
last_positive_pos = 0;
last_negative_pos = 0;
current_row_sources.resize(0);
}
/// Initially, skip all rows. On insert, unskip "corner" rows.
if (out_row_sources_buf)
current_row_sources.emplace_back(current.impl->order, true);
if (sign == 1)
{
++count_positive;
last_is_positive = true;
setRowRef(last_positive, current);
last_positive_pos = current_pos;
}
else if (sign == -1)
{
if (!count_negative)
{
setRowRef(first_negative, current);
first_negative_pos = current_pos;
}
if (!blocks_written && !merged_rows)
{
setRowRef(last_negative, current);
last_negative_pos = current_pos;
}
++count_negative;
last_is_positive = false;
}
else
throw Exception("Incorrect data: Sign = " + toString(sign) + " (must be 1 or -1).",
ErrorCodes::INCORRECT_DATA);
if (!current->isLast())
{
current->next();
queue.push(current);
}
else
{
/// We take next block from the corresponding source, if there is one.
fetchNextBlock(current, queue);
}
}
/// Write data for last primary key.
insertRows(merged_columns, merged_rows);
finished = true;
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}
}