ClickHouse/src/Storages/MergeTree/MergeTreeDataPartWriterWide.cpp
2020-09-21 17:22:13 +03:00

345 lines
13 KiB
C++

#include <Storages/MergeTree/MergeTreeDataPartWriterWide.h>
#include <Interpreters/Context.h>
#include <Compression/CompressionFactory.h>
namespace DB
{
namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
namespace
{
constexpr auto DATA_FILE_EXTENSION = ".bin";
}
MergeTreeDataPartWriterWide::MergeTreeDataPartWriterWide(
const MergeTreeData::DataPartPtr & data_part_,
const NamesAndTypesList & columns_list_,
const StorageMetadataPtr & metadata_snapshot_,
const std::vector<MergeTreeIndexPtr> & indices_to_recalc_,
const String & marks_file_extension_,
const CompressionCodecPtr & default_codec_,
const MergeTreeWriterSettings & settings_,
const MergeTreeIndexGranularity & index_granularity_)
: MergeTreeDataPartWriterOnDisk(data_part_, columns_list_, metadata_snapshot_,
indices_to_recalc_, marks_file_extension_,
default_codec_, settings_, index_granularity_)
{
const auto & columns = metadata_snapshot->getColumns();
for (const auto & it : columns_list)
addStreams(it.name, *it.type, columns.getCodecDescOrDefault(it.name, default_codec), settings.estimated_size);
}
void MergeTreeDataPartWriterWide::addStreams(
const String & name,
const IDataType & type,
const ASTPtr & effective_codec_desc,
size_t estimated_size)
{
IDataType::StreamCallback callback = [&] (const IDataType::SubstreamPath & substream_path, const IDataType & substream_type)
{
String stream_name = IDataType::getFileNameForStream(name, substream_path);
/// Shared offsets for Nested type.
if (column_streams.count(stream_name))
return;
CompressionCodecPtr compression_codec;
if (IDataType::isSpecialCompressionAllowed(substream_path))
{
compression_codec = CompressionCodecFactory::instance().get(effective_codec_desc, &substream_type, default_codec);
}
else
{
compression_codec = CompressionCodecFactory::instance().get(effective_codec_desc, nullptr, default_codec, false);
}
if (compression_codec == nullptr)
throw Exception(
ErrorCodes::LOGICAL_ERROR,
"No generic compression provided for column {} with type {}",
backQuote(name),
type.getName());
column_streams[stream_name] = std::make_unique<Stream>(
stream_name,
data_part->volume->getDisk(),
part_path + stream_name, DATA_FILE_EXTENSION,
part_path + stream_name, marks_file_extension,
compression_codec,
settings.max_compress_block_size,
estimated_size,
settings.aio_threshold);
};
IDataType::SubstreamPath stream_path;
type.enumerateStreams(callback, stream_path);
}
IDataType::OutputStreamGetter MergeTreeDataPartWriterWide::createStreamGetter(
const String & name, WrittenOffsetColumns & offset_columns)
{
return [&, this] (const IDataType::SubstreamPath & substream_path) -> WriteBuffer *
{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
String stream_name = IDataType::getFileNameForStream(name, substream_path);
/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return nullptr;
return &column_streams[stream_name]->compressed;
};
}
void MergeTreeDataPartWriterWide::write(const Block & block,
const IColumn::Permutation * permutation,
const Block & primary_key_block, const Block & skip_indexes_block)
{
/// Fill index granularity for this block
/// if it's unknown (in case of insert data or horizontal merge,
/// but not in case of vertical merge)
if (compute_granularity)
{
size_t index_granularity_for_block = computeIndexGranularity(block);
fillIndexGranularity(index_granularity_for_block, block.rows());
}
auto offset_columns = written_offset_columns ? *written_offset_columns : WrittenOffsetColumns{};
auto it = columns_list.begin();
for (size_t i = 0; i < columns_list.size(); ++i, ++it)
{
const ColumnWithTypeAndName & column = block.getByName(it->name);
if (permutation)
{
if (primary_key_block.has(it->name))
{
const auto & primary_column = *primary_key_block.getByName(it->name).column;
writeColumn(column.name, *column.type, primary_column, offset_columns);
}
else if (skip_indexes_block.has(it->name))
{
const auto & index_column = *skip_indexes_block.getByName(it->name).column;
writeColumn(column.name, *column.type, index_column, offset_columns);
}
else
{
/// We rearrange the columns that are not included in the primary key here; Then the result is released - to save RAM.
ColumnPtr permuted_column = column.column->permute(*permutation, 0);
writeColumn(column.name, *column.type, *permuted_column, offset_columns);
}
}
else
{
writeColumn(column.name, *column.type, *column.column, offset_columns);
}
}
}
void MergeTreeDataPartWriterWide::writeSingleMark(
const String & name,
const IDataType & type,
WrittenOffsetColumns & offset_columns,
size_t number_of_rows,
DB::IDataType::SubstreamPath & path)
{
type.enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
String stream_name = IDataType::getFileNameForStream(name, substream_path);
/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return;
Stream & stream = *column_streams[stream_name];
/// There could already be enough data to compress into the new block.
if (stream.compressed.offset() >= settings.min_compress_block_size)
stream.compressed.next();
writeIntBinary(stream.plain_hashing.count(), stream.marks);
writeIntBinary(stream.compressed.offset(), stream.marks);
if (settings.can_use_adaptive_granularity)
writeIntBinary(number_of_rows, stream.marks);
}, path);
}
size_t MergeTreeDataPartWriterWide::writeSingleGranule(
const String & name,
const IDataType & type,
const IColumn & column,
WrittenOffsetColumns & offset_columns,
IDataType::SerializeBinaryBulkStatePtr & serialization_state,
IDataType::SerializeBinaryBulkSettings & serialize_settings,
size_t from_row,
size_t number_of_rows,
bool write_marks)
{
if (write_marks)
writeSingleMark(name, type, offset_columns, number_of_rows, serialize_settings.path);
type.serializeBinaryBulkWithMultipleStreams(column, from_row, number_of_rows, serialize_settings, serialization_state);
/// So that instead of the marks pointing to the end of the compressed block, there were marks pointing to the beginning of the next one.
type.enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
String stream_name = IDataType::getFileNameForStream(name, substream_path);
/// Don't write offsets more than one time for Nested type.
if (is_offsets && offset_columns.count(stream_name))
return;
column_streams[stream_name]->compressed.nextIfAtEnd();
}, serialize_settings.path);
return from_row + number_of_rows;
}
/// Column must not be empty. (column.size() !== 0)
void MergeTreeDataPartWriterWide::writeColumn(
const String & name,
const IDataType & type,
const IColumn & column,
WrittenOffsetColumns & offset_columns)
{
auto [it, inserted] = serialization_states.emplace(name, nullptr);
if (inserted)
{
IDataType::SerializeBinaryBulkSettings serialize_settings;
serialize_settings.getter = createStreamGetter(name, offset_columns);
type.serializeBinaryBulkStatePrefix(serialize_settings, it->second);
}
const auto & global_settings = storage.global_context.getSettingsRef();
IDataType::SerializeBinaryBulkSettings serialize_settings;
serialize_settings.getter = createStreamGetter(name, offset_columns);
serialize_settings.low_cardinality_max_dictionary_size = global_settings.low_cardinality_max_dictionary_size;
serialize_settings.low_cardinality_use_single_dictionary_for_part = global_settings.low_cardinality_use_single_dictionary_for_part != 0;
size_t total_rows = column.size();
size_t current_row = 0;
size_t current_column_mark = getCurrentMark();
size_t current_index_offset = getIndexOffset();
while (current_row < total_rows)
{
size_t rows_to_write;
bool write_marks = true;
/// If there is `index_offset`, then the first mark goes not immediately, but after this number of rows.
if (current_row == 0 && current_index_offset != 0)
{
write_marks = false;
rows_to_write = current_index_offset;
}
else
{
if (index_granularity.getMarksCount() <= current_column_mark)
throw Exception(
"Incorrect size of index granularity expect mark " + toString(current_column_mark) + " totally have marks " + toString(index_granularity.getMarksCount()),
ErrorCodes::LOGICAL_ERROR);
rows_to_write = index_granularity.getMarkRows(current_column_mark);
}
if (rows_to_write != 0)
data_written = true;
current_row = writeSingleGranule(
name,
type,
column,
offset_columns,
it->second,
serialize_settings,
current_row,
rows_to_write,
write_marks
);
if (write_marks)
current_column_mark++;
}
type.enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
if (is_offsets)
{
String stream_name = IDataType::getFileNameForStream(name, substream_path);
offset_columns.insert(stream_name);
}
}, serialize_settings.path);
next_mark = current_column_mark;
next_index_offset = current_row - total_rows;
}
void MergeTreeDataPartWriterWide::finishDataSerialization(IMergeTreeDataPart::Checksums & checksums, bool sync)
{
const auto & global_settings = storage.global_context.getSettingsRef();
IDataType::SerializeBinaryBulkSettings serialize_settings;
serialize_settings.low_cardinality_max_dictionary_size = global_settings.low_cardinality_max_dictionary_size;
serialize_settings.low_cardinality_use_single_dictionary_for_part = global_settings.low_cardinality_use_single_dictionary_for_part != 0;
WrittenOffsetColumns offset_columns;
bool write_final_mark = (with_final_mark && data_written);
{
auto it = columns_list.begin();
for (size_t i = 0; i < columns_list.size(); ++i, ++it)
{
if (!serialization_states.empty())
{
serialize_settings.getter = createStreamGetter(it->name, written_offset_columns ? *written_offset_columns : offset_columns);
it->type->serializeBinaryBulkStateSuffix(serialize_settings, serialization_states[it->name]);
}
if (write_final_mark)
{
writeFinalMark(it->name, it->type, offset_columns, serialize_settings.path);
}
}
}
for (auto & stream : column_streams)
{
stream.second->finalize();
stream.second->addToChecksums(checksums);
if (sync)
stream.second->sync();
}
column_streams.clear();
serialization_states.clear();
}
void MergeTreeDataPartWriterWide::writeFinalMark(
const std::string & column_name,
const DataTypePtr column_type,
WrittenOffsetColumns & offset_columns,
DB::IDataType::SubstreamPath & path)
{
writeSingleMark(column_name, *column_type, offset_columns, 0, path);
/// Memoize information about offsets
column_type->enumerateStreams([&] (const IDataType::SubstreamPath & substream_path, const IDataType & /* substream_type */)
{
bool is_offsets = !substream_path.empty() && substream_path.back().type == IDataType::Substream::ArraySizes;
if (is_offsets)
{
String stream_name = IDataType::getFileNameForStream(column_name, substream_path);
offset_columns.insert(stream_name);
}
}, path);
}
}