ClickHouse/dbms/src/Processors/QueryPipeline.cpp
2019-11-21 18:37:59 +03:00

647 lines
21 KiB
C++

#include <Processors/QueryPipeline.h>
#include <Processors/ResizeProcessor.h>
#include <Processors/ConcatProcessor.h>
#include <Processors/NullSink.h>
#include <Processors/LimitTransform.h>
#include <Processors/Sources/NullSource.h>
#include <Processors/Transforms/TotalsHavingTransform.h>
#include <Processors/Transforms/ExtremesTransform.h>
#include <Processors/Transforms/CreatingSetsTransform.h>
#include <Processors/Transforms/ConvertingTransform.h>
#include <Processors/Formats/IOutputFormat.h>
#include <Processors/Sources/SourceFromInputStream.h>
#include <Processors/Executors/PipelineExecutor.h>
#include <Processors/Transforms/PartialSortingTransform.h>
#include <Processors/Sources/SourceFromSingleChunk.h>
#include <IO/WriteHelpers.h>
#include <Interpreters/Context.h>
#include <Common/typeid_cast.h>
#include <Common/CurrentThread.h>
namespace DB
{
void QueryPipeline::checkInitialized()
{
if (!initialized())
throw Exception("QueryPipeline wasn't initialized.", ErrorCodes::LOGICAL_ERROR);
}
void QueryPipeline::checkSource(const ProcessorPtr & source, bool can_have_totals)
{
if (!source->getInputs().empty())
throw Exception("Source for query pipeline shouldn't have any input, but " + source->getName() + " has " +
toString(source->getInputs().size()) + " inputs.", ErrorCodes::LOGICAL_ERROR);
if (source->getOutputs().empty())
throw Exception("Source for query pipeline should have single output, but it doesn't have any",
ErrorCodes::LOGICAL_ERROR);
if (!can_have_totals && source->getOutputs().size() != 1)
throw Exception("Source for query pipeline should have single output, but " + source->getName() + " has " +
toString(source->getOutputs().size()) + " outputs.", ErrorCodes::LOGICAL_ERROR);
if (source->getOutputs().size() > 2)
throw Exception("Source for query pipeline should have 1 or 2 outputs, but " + source->getName() + " has " +
toString(source->getOutputs().size()) + " outputs.", ErrorCodes::LOGICAL_ERROR);
}
void QueryPipeline::init(Pipe pipe)
{
Pipes pipes;
pipes.emplace_back(std::move(pipe));
init(std::move(pipes));
}
void QueryPipeline::init(Pipes pipes)
{
if (initialized())
throw Exception("Pipeline has already been initialized.", ErrorCodes::LOGICAL_ERROR);
if (pipes.empty())
throw Exception("Can't initialize pipeline with empty pipes list.", ErrorCodes::LOGICAL_ERROR);
std::vector<OutputPort *> totals;
for (auto & pipe : pipes)
{
auto & header = pipe.getHeader();
if (current_header)
assertBlocksHaveEqualStructure(current_header, header, "QueryPipeline");
else
current_header = header;
if (auto * totals_port = pipe.getTotalsPort())
{
assertBlocksHaveEqualStructure(current_header, totals_port->getHeader(), "QueryPipeline");
totals.emplace_back(totals_port);
}
streams.emplace_back(&pipe.getPort());
auto cur_processors = std::move(pipe).detachProcessors();
processors.insert(processors.end(), cur_processors.begin(), cur_processors.end());
}
if (!totals.empty())
{
if (totals.size() == 1)
totals_having_port = totals.back();
else
{
auto resize = std::make_shared<ResizeProcessor>(current_header, totals.size(), 1);
auto in = resize->getInputs().begin();
for (auto & total : totals)
connect(*total, *(in++));
totals_having_port = &resize->getOutputs().front();
processors.emplace_back(std::move(resize));
}
}
}
static ProcessorPtr callProcessorGetter(
const Block & header, const QueryPipeline::ProcessorGetter & getter, QueryPipeline::StreamType)
{
return getter(header);
}
static ProcessorPtr callProcessorGetter(
const Block & header, const QueryPipeline::ProcessorGetterWithStreamKind & getter, QueryPipeline::StreamType kind)
{
return getter(header, kind);
}
template <typename TProcessorGetter>
void QueryPipeline::addSimpleTransformImpl(const TProcessorGetter & getter)
{
checkInitialized();
Block header;
auto add_transform = [&](OutputPort *& stream, StreamType stream_type, size_t stream_num [[maybe_unused]] = IProcessor::NO_STREAM)
{
if (!stream)
return;
auto transform = callProcessorGetter(stream->getHeader(), getter, stream_type);
if (transform)
{
if (transform->getInputs().size() != 1)
throw Exception("Processor for query pipeline transform should have single input, "
"but " + transform->getName() + " has " +
toString(transform->getInputs().size()) + " inputs.", ErrorCodes::LOGICAL_ERROR);
if (transform->getOutputs().size() != 1)
throw Exception("Processor for query pipeline transform should have single output, "
"but " + transform->getName() + " has " +
toString(transform->getOutputs().size()) + " outputs.", ErrorCodes::LOGICAL_ERROR);
}
auto & out_header = transform ? transform->getOutputs().front().getHeader()
: stream->getHeader();
if (stream_type != StreamType::Totals)
{
if (header)
assertBlocksHaveEqualStructure(header, out_header, "QueryPipeline");
else
header = out_header;
}
if (transform)
{
// if (stream_type == StreamType::Main)
// transform->setStream(stream_num);
connect(*stream, transform->getInputs().front());
stream = &transform->getOutputs().front();
processors.emplace_back(std::move(transform));
}
};
for (size_t stream_num = 0; stream_num < streams.size(); ++stream_num)
add_transform(streams[stream_num], StreamType::Main, stream_num);
add_transform(delayed_stream_port, StreamType::Main);
add_transform(totals_having_port, StreamType::Totals);
add_transform(extremes_port, StreamType::Extremes);
current_header = std::move(header);
}
void QueryPipeline::addSimpleTransform(const ProcessorGetter & getter)
{
addSimpleTransformImpl(getter);
}
void QueryPipeline::addSimpleTransform(const ProcessorGetterWithStreamKind & getter)
{
addSimpleTransformImpl(getter);
}
void QueryPipeline::addPipe(Processors pipe)
{
checkInitialized();
concatDelayedStream();
if (pipe.empty())
throw Exception("Can't add empty processors list to QueryPipeline.", ErrorCodes::LOGICAL_ERROR);
auto & first = pipe.front();
auto & last = pipe.back();
auto num_inputs = first->getInputs().size();
if (num_inputs != streams.size())
throw Exception("Can't add processors to QueryPipeline because first processor has " + toString(num_inputs) +
" input ports, but QueryPipeline has " + toString(streams.size()) + " streams.",
ErrorCodes::LOGICAL_ERROR);
auto stream = streams.begin();
for (auto & input : first->getInputs())
connect(**(stream++), input);
Block header;
streams.clear();
streams.reserve(last->getOutputs().size());
for (auto & output : last->getOutputs())
{
streams.emplace_back(&output);
if (header)
assertBlocksHaveEqualStructure(header, output.getHeader(), "QueryPipeline");
else
header = output.getHeader();
}
processors.insert(processors.end(), pipe.begin(), pipe.end());
current_header = std::move(header);
}
void QueryPipeline::addDelayedStream(ProcessorPtr source)
{
checkInitialized();
if (delayed_stream_port)
throw Exception("QueryPipeline already has stream with non joined data.", ErrorCodes::LOGICAL_ERROR);
checkSource(source, false);
assertBlocksHaveEqualStructure(current_header, source->getOutputs().front().getHeader(), "QueryPipeline");
delayed_stream_port = &source->getOutputs().front();
processors.emplace_back(std::move(source));
}
void QueryPipeline::concatDelayedStream()
{
if (!delayed_stream_port)
return;
auto resize = std::make_shared<ResizeProcessor>(current_header, getNumMainStreams(), 1);
auto stream = streams.begin();
for (auto & input : resize->getInputs())
connect(**(stream++), input);
auto concat = std::make_shared<ConcatProcessor>(current_header, 2);
connect(resize->getOutputs().front(), concat->getInputs().front());
connect(*delayed_stream_port, concat->getInputs().back());
streams = { &concat->getOutputs().front() };
processors.emplace_back(std::move(resize));
processors.emplace_back(std::move(concat));
delayed_stream_port = nullptr;
}
void QueryPipeline::resize(size_t num_streams, bool force)
{
checkInitialized();
concatDelayedStream();
if (!force && num_streams == getNumStreams())
return;
has_resize = true;
auto resize = std::make_shared<ResizeProcessor>(current_header, getNumStreams(), num_streams);
auto stream = streams.begin();
for (auto & input : resize->getInputs())
connect(**(stream++), input);
streams.clear();
streams.reserve(num_streams);
for (auto & output : resize->getOutputs())
streams.emplace_back(&output);
processors.emplace_back(std::move(resize));
}
void QueryPipeline::addTotalsHavingTransform(ProcessorPtr transform)
{
checkInitialized();
if (!typeid_cast<const TotalsHavingTransform *>(transform.get()))
throw Exception("TotalsHavingTransform expected for QueryPipeline::addTotalsHavingTransform.",
ErrorCodes::LOGICAL_ERROR);
if (totals_having_port)
throw Exception("Totals having transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
resize(1);
connect(*streams.front(), transform->getInputs().front());
auto & outputs = transform->getOutputs();
streams = { &outputs.front() };
totals_having_port = &outputs.back();
current_header = outputs.front().getHeader();
processors.emplace_back(std::move(transform));
}
void QueryPipeline::addDefaultTotals()
{
checkInitialized();
if (totals_having_port)
throw Exception("Totals having transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
Columns columns;
columns.reserve(current_header.columns());
for (size_t i = 0; i < current_header.columns(); ++i)
{
auto column = current_header.getByPosition(i).type->createColumn();
column->insertDefault();
columns.emplace_back(std::move(column));
}
auto source = std::make_shared<SourceFromSingleChunk>(current_header, Chunk(std::move(columns), 1));
totals_having_port = &source->getPort();
processors.emplace_back(source);
}
void QueryPipeline::addTotals(ProcessorPtr source)
{
checkInitialized();
if (totals_having_port)
throw Exception("Totals having transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
checkSource(source, false);
assertBlocksHaveEqualStructure(current_header, source->getOutputs().front().getHeader(), "QueryPipeline");
totals_having_port = &source->getOutputs().front();
processors.emplace_back(source);
}
void QueryPipeline::dropTotalsIfHas()
{
if (totals_having_port)
{
auto null_sink = std::make_shared<NullSink>(totals_having_port->getHeader());
connect(*totals_having_port, null_sink->getPort());
processors.emplace_back(std::move(null_sink));
totals_having_port = nullptr;
}
}
void QueryPipeline::addExtremesTransform(ProcessorPtr transform)
{
checkInitialized();
if (!typeid_cast<const ExtremesTransform *>(transform.get()))
throw Exception("ExtremesTransform expected for QueryPipeline::addExtremesTransform.",
ErrorCodes::LOGICAL_ERROR);
if (extremes_port)
throw Exception("Extremes transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
if (getNumStreams() != 1)
throw Exception("Cant't add Extremes transform because pipeline is expected to have single stream, "
"but it has " + toString(getNumStreams()) + " streams.", ErrorCodes::LOGICAL_ERROR);
connect(*streams.front(), transform->getInputs().front());
auto & outputs = transform->getOutputs();
streams = { &outputs.front() };
extremes_port = &outputs.back();
current_header = outputs.front().getHeader();
processors.emplace_back(std::move(transform));
}
void QueryPipeline::addCreatingSetsTransform(ProcessorPtr transform)
{
checkInitialized();
if (!typeid_cast<const CreatingSetsTransform *>(transform.get()))
throw Exception("CreatingSetsTransform expected for QueryPipeline::addExtremesTransform.",
ErrorCodes::LOGICAL_ERROR);
resize(1);
auto concat = std::make_shared<ConcatProcessor>(current_header, 2);
connect(transform->getOutputs().front(), concat->getInputs().front());
connect(*streams.back(), concat->getInputs().back());
streams = { &concat->getOutputs().front() };
processors.emplace_back(std::move(transform));
processors.emplace_back(std::move(concat));
}
void QueryPipeline::setOutput(ProcessorPtr output)
{
checkInitialized();
auto * format = dynamic_cast<IOutputFormat * >(output.get());
if (!format)
throw Exception("IOutputFormat processor expected for QueryPipeline::setOutput.", ErrorCodes::LOGICAL_ERROR);
if (output_format)
throw Exception("QueryPipeline already has output.", ErrorCodes::LOGICAL_ERROR);
output_format = format;
resize(1);
auto & main = format->getPort(IOutputFormat::PortKind::Main);
auto & totals = format->getPort(IOutputFormat::PortKind::Totals);
auto & extremes = format->getPort(IOutputFormat::PortKind::Extremes);
if (!totals_having_port)
{
auto null_source = std::make_shared<NullSource>(totals.getHeader());
totals_having_port = &null_source->getPort();
processors.emplace_back(std::move(null_source));
}
if (!extremes_port)
{
auto null_source = std::make_shared<NullSource>(extremes.getHeader());
extremes_port = &null_source->getPort();
processors.emplace_back(std::move(null_source));
}
processors.emplace_back(std::move(output));
connect(*streams.front(), main);
connect(*totals_having_port, totals);
connect(*extremes_port, extremes);
}
void QueryPipeline::unitePipelines(
std::vector<QueryPipeline> && pipelines, const Block & common_header, const Context & context)
{
checkInitialized();
concatDelayedStream();
addSimpleTransform([&](const Block & header)
{
return std::make_shared<ConvertingTransform>(
header, common_header, ConvertingTransform::MatchColumnsMode::Position, context);
});
std::vector<OutputPort *> extremes;
for (auto & pipeline : pipelines)
{
pipeline.checkInitialized();
pipeline.concatDelayedStream();
pipeline.addSimpleTransform([&](const Block & header)
{
return std::make_shared<ConvertingTransform>(
header, common_header, ConvertingTransform::MatchColumnsMode::Position, context);
});
if (pipeline.extremes_port)
{
auto converting = std::make_shared<ConvertingTransform>(
pipeline.current_header, common_header, ConvertingTransform::MatchColumnsMode::Position, context);
connect(*pipeline.extremes_port, converting->getInputPort());
extremes.push_back(&converting->getOutputPort());
processors.push_back(std::move(converting));
}
/// Take totals only from first port.
if (pipeline.totals_having_port)
{
if (!totals_having_port)
{
auto converting = std::make_shared<ConvertingTransform>(
pipeline.current_header, common_header, ConvertingTransform::MatchColumnsMode::Position, context);
connect(*pipeline.totals_having_port, converting->getInputPort());
totals_having_port = &converting->getOutputPort();
processors.push_back(std::move(converting));
}
else
pipeline.dropTotalsIfHas();
}
processors.insert(processors.end(), pipeline.processors.begin(), pipeline.processors.end());
streams.insert(streams.end(), pipeline.streams.begin(), pipeline.streams.end());
table_locks.insert(table_locks.end(), std::make_move_iterator(pipeline.table_locks.begin()), std::make_move_iterator(pipeline.table_locks.end()));
interpreter_context.insert(interpreter_context.end(), pipeline.interpreter_context.begin(), pipeline.interpreter_context.end());
storage_holder.insert(storage_holder.end(), pipeline.storage_holder.begin(), pipeline.storage_holder.end());
}
if (!extremes.empty())
{
size_t num_inputs = extremes.size() + (extremes_port ? 1u : 0u);
if (num_inputs == 1)
extremes_port = extremes.front();
else
{
/// Add extra processor for extremes.
auto resize = std::make_shared<ResizeProcessor>(current_header, num_inputs, 1);
auto input = resize->getInputs().begin();
if (extremes_port)
connect(*extremes_port, *(input++));
for (auto & output : extremes)
connect(*output, *(input++));
auto transform = std::make_shared<ExtremesTransform>(current_header);
extremes_port = &transform->getOutputPort();
connect(resize->getOutputs().front(), transform->getInputPort());
processors.emplace_back(std::move(transform));
}
}
}
void QueryPipeline::setProgressCallback(const ProgressCallback & callback)
{
for (auto & processor : processors)
{
if (auto * source = dynamic_cast<ISourceWithProgress *>(processor.get()))
source->setProgressCallback(callback);
if (auto * source = typeid_cast<CreatingSetsTransform *>(processor.get()))
source->setProgressCallback(callback);
}
}
void QueryPipeline::setProcessListElement(QueryStatus * elem)
{
for (auto & processor : processors)
{
if (auto * source = dynamic_cast<ISourceWithProgress *>(processor.get()))
source->setProcessListElement(elem);
if (auto * source = typeid_cast<CreatingSetsTransform *>(processor.get()))
source->setProcessListElement(elem);
}
}
void QueryPipeline::finalize()
{
checkInitialized();
if (!output_format)
throw Exception("Cannot finalize pipeline because it doesn't have output.", ErrorCodes::LOGICAL_ERROR);
calcRowsBeforeLimit();
}
void QueryPipeline::calcRowsBeforeLimit()
{
/// TODO get from Remote
UInt64 rows_before_limit_at_least = 0;
UInt64 rows_before_limit = 0;
bool has_limit = false;
bool has_partial_sorting = false;
std::unordered_set<IProcessor *> visited;
struct QueuedEntry
{
IProcessor * processor;
bool visited_limit;
};
std::queue<QueuedEntry> queue;
queue.push({ output_format, false });
visited.emplace(output_format);
while (!queue.empty())
{
auto processor = queue.front().processor;
auto visited_limit = queue.front().visited_limit;
queue.pop();
if (!visited_limit)
{
if (auto * limit = typeid_cast<const LimitTransform *>(processor))
{
has_limit = visited_limit = true;
rows_before_limit_at_least += limit->getRowsBeforeLimitAtLeast();
}
if (auto * source = typeid_cast<SourceFromInputStream *>(processor))
{
auto & info = source->getStream().getProfileInfo();
if (info.hasAppliedLimit())
{
has_limit = visited_limit = true;
rows_before_limit_at_least += info.getRowsBeforeLimit();
}
}
}
if (auto * sorting = typeid_cast<const PartialSortingTransform *>(processor))
{
has_partial_sorting = true;
rows_before_limit += sorting->getNumReadRows();
/// Don't go to children. Take rows_before_limit from last PartialSortingTransform.
/// continue;
}
/// Skip totals and extremes port for output format.
if (auto * format = dynamic_cast<IOutputFormat *>(processor))
{
auto * child_processor = &format->getPort(IOutputFormat::PortKind::Main).getOutputPort().getProcessor();
if (visited.emplace(child_processor).second)
queue.push({ child_processor, visited_limit });
continue;
}
for (auto & child_port : processor->getInputs())
{
auto * child_processor = &child_port.getOutputPort().getProcessor();
if (visited.emplace(child_processor).second)
queue.push({ child_processor, visited_limit });
}
}
/// Get num read rows from PartialSortingTransform if have it.
if (has_limit)
output_format->setRowsBeforeLimit(has_partial_sorting ? rows_before_limit : rows_before_limit_at_least);
}
PipelineExecutorPtr QueryPipeline::execute()
{
checkInitialized();
if (!output_format)
throw Exception("Cannot execute pipeline because it doesn't have output.", ErrorCodes::LOGICAL_ERROR);
return std::make_shared<PipelineExecutor>(processors);
}
}