ClickHouse/src/DataStreams/NativeBlockInputStream.cpp

266 lines
8.1 KiB
C++

#include <Core/Defines.h>
#include <IO/ReadHelpers.h>
#include <IO/VarInt.h>
#include <Compression/CompressedReadBufferFromFile.h>
#include <DataTypes/DataTypeFactory.h>
#include <Common/typeid_cast.h>
#include <ext/range.h>
#include <DataStreams/NativeBlockInputStream.h>
#include <DataTypes/DataTypeLowCardinality.h>
namespace DB
{
namespace ErrorCodes
{
extern const int INCORRECT_INDEX;
extern const int LOGICAL_ERROR;
extern const int CANNOT_READ_ALL_DATA;
}
NativeBlockInputStream::NativeBlockInputStream(ReadBuffer & istr_, UInt64 server_revision_)
: istr(istr_), server_revision(server_revision_)
{
}
NativeBlockInputStream::NativeBlockInputStream(ReadBuffer & istr_, const Block & header_, UInt64 server_revision_)
: istr(istr_), header(header_), server_revision(server_revision_)
{
}
NativeBlockInputStream::NativeBlockInputStream(ReadBuffer & istr_, UInt64 server_revision_,
IndexForNativeFormat::Blocks::const_iterator index_block_it_,
IndexForNativeFormat::Blocks::const_iterator index_block_end_)
: istr(istr_), server_revision(server_revision_),
use_index(true), index_block_it(index_block_it_), index_block_end(index_block_end_)
{
istr_concrete = typeid_cast<CompressedReadBufferFromFile *>(&istr);
if (!istr_concrete)
throw Exception("When need to use index for NativeBlockInputStream, istr must be CompressedReadBufferFromFile.", ErrorCodes::LOGICAL_ERROR);
if (index_block_it == index_block_end)
return;
index_column_it = index_block_it->columns.begin();
/// Initialize header from the index.
for (const auto & column : index_block_it->columns)
{
auto type = DataTypeFactory::instance().get(column.type);
header.insert(ColumnWithTypeAndName{ type, column.name });
}
}
// also resets few vars from IBlockInputStream (I didn't want to propagate resetParser upthere)
void NativeBlockInputStream::resetParser()
{
istr_concrete = nullptr;
use_index = false;
#ifndef NDEBUG
read_prefix_is_called = false;
read_suffix_is_called = false;
#endif
is_cancelled.store(false);
is_killed.store(false);
}
void NativeBlockInputStream::readData(const IDataType & type, ColumnPtr & column, ReadBuffer & istr, size_t rows, double avg_value_size_hint)
{
IDataType::DeserializeBinaryBulkSettings settings;
settings.getter = [&](IDataType::SubstreamPath) -> ReadBuffer * { return &istr; };
settings.avg_value_size_hint = avg_value_size_hint;
settings.position_independent_encoding = false;
IDataType::DeserializeBinaryBulkStatePtr state;
type.deserializeBinaryBulkStatePrefix(settings, state);
type.deserializeBinaryBulkWithMultipleStreams(column, rows, settings, state);
if (column->size() != rows)
throw Exception("Cannot read all data in NativeBlockInputStream. Rows read: " + toString(column->size()) + ". Rows expected: " + toString(rows) + ".",
ErrorCodes::CANNOT_READ_ALL_DATA);
}
Block NativeBlockInputStream::getHeader() const
{
return header;
}
Block NativeBlockInputStream::readImpl()
{
Block res;
const DataTypeFactory & data_type_factory = DataTypeFactory::instance();
if (use_index && index_block_it == index_block_end)
return res;
if (istr.eof())
{
if (use_index)
throw ParsingException("Input doesn't contain all data for index.", ErrorCodes::CANNOT_READ_ALL_DATA);
return res;
}
/// Additional information about the block.
if (server_revision > 0)
res.info.read(istr);
/// Dimensions
size_t columns = 0;
size_t rows = 0;
if (!use_index)
{
readVarUInt(columns, istr);
readVarUInt(rows, istr);
}
else
{
columns = index_block_it->num_columns;
rows = index_block_it->num_rows;
}
for (size_t i = 0; i < columns; ++i)
{
if (use_index)
{
/// If the current position is what is required, the real seek does not occur.
istr_concrete->seek(index_column_it->location.offset_in_compressed_file, index_column_it->location.offset_in_decompressed_block);
}
ColumnWithTypeAndName column;
/// Name
readBinary(column.name, istr);
/// Type
String type_name;
readBinary(type_name, istr);
column.type = data_type_factory.get(type_name);
if (use_index)
{
/// Index allows to do more checks.
if (index_column_it->name != column.name)
throw Exception("Index points to column with wrong name: corrupted index or data", ErrorCodes::INCORRECT_INDEX);
if (index_column_it->type != type_name)
throw Exception("Index points to column with wrong type: corrupted index or data", ErrorCodes::INCORRECT_INDEX);
}
/// Data
ColumnPtr read_column = column.type->createColumn();
double avg_value_size_hint = avg_value_size_hints.empty() ? 0 : avg_value_size_hints[i];
if (rows) /// If no rows, nothing to read.
readData(*column.type, read_column, istr, rows, avg_value_size_hint);
column.column = std::move(read_column);
if (header)
{
/// Support insert from old clients without low cardinality type.
auto & header_column = header.getByName(column.name);
if (!header_column.type->equals(*column.type))
{
column.column = recursiveTypeConversion(column.column, column.type, header.getByPosition(i).type);
column.type = header.getByPosition(i).type;
}
}
res.insert(std::move(column));
if (use_index)
++index_column_it;
}
if (use_index)
{
if (index_column_it != index_block_it->columns.end())
throw Exception("Inconsistent index: not all columns were read", ErrorCodes::INCORRECT_INDEX);
++index_block_it;
if (index_block_it != index_block_end)
index_column_it = index_block_it->columns.begin();
}
if (rows && header)
{
/// Allow to skip columns. Fill them with default values.
Block tmp_res;
for (auto & col : header)
{
if (res.has(col.name))
tmp_res.insert(res.getByName(col.name));
else
tmp_res.insert({col.type->createColumn()->cloneResized(rows), col.type, col.name});
}
res.swap(tmp_res);
}
return res;
}
void NativeBlockInputStream::updateAvgValueSizeHints(const Block & block)
{
auto rows = block.rows();
if (rows < 10)
return;
avg_value_size_hints.resize_fill(block.columns(), 0);
for (auto idx : ext::range(0, block.columns()))
{
auto & avg_value_size_hint = avg_value_size_hints[idx];
IDataType::updateAvgValueSizeHint(*block.getByPosition(idx).column, avg_value_size_hint);
}
}
void IndexForNativeFormat::read(ReadBuffer & istr, const NameSet & required_columns)
{
while (!istr.eof())
{
blocks.emplace_back();
IndexOfBlockForNativeFormat & block = blocks.back();
readVarUInt(block.num_columns, istr);
readVarUInt(block.num_rows, istr);
if (block.num_columns < required_columns.size())
throw Exception("Index contain less than required columns", ErrorCodes::INCORRECT_INDEX);
for (size_t i = 0; i < block.num_columns; ++i)
{
IndexOfOneColumnForNativeFormat column_index;
readBinary(column_index.name, istr);
readBinary(column_index.type, istr);
readBinary(column_index.location.offset_in_compressed_file, istr);
readBinary(column_index.location.offset_in_decompressed_block, istr);
if (required_columns.count(column_index.name))
block.columns.push_back(std::move(column_index));
}
if (block.columns.size() < required_columns.size())
throw Exception("Index contain less than required columns", ErrorCodes::INCORRECT_INDEX);
if (block.columns.size() > required_columns.size())
throw Exception("Index contain duplicate columns", ErrorCodes::INCORRECT_INDEX);
block.num_columns = block.columns.size();
}
}
}