ClickHouse/src/Processors/QueryPipeline.cpp

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#include <Processors/QueryPipeline.h>
#include <Processors/ResizeProcessor.h>
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#include <Processors/LimitTransform.h>
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#include <Processors/Transforms/TotalsHavingTransform.h>
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#include <Processors/Transforms/ExtremesTransform.h>
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#include <Processors/Transforms/CreatingSetsTransform.h>
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#include <Processors/Transforms/ExpressionTransform.h>
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#include <Processors/Transforms/MergingAggregatedMemoryEfficientTransform.h>
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#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>
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#include <IO/WriteHelpers.h>
#include <Interpreters/Context.h>
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#include <Interpreters/ExpressionActions.h>
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#include <Common/typeid_cast.h>
#include <Common/CurrentThread.h>
#include <Processors/DelayedPortsProcessor.h>
#include <Processors/RowsBeforeLimitCounter.h>
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#include <Processors/Sources/RemoteSource.h>
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namespace DB
{
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namespace ErrorCodes
{
extern const int LOGICAL_ERROR;
}
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void QueryPipeline::checkInitialized()
{
if (!initialized())
throw Exception("QueryPipeline wasn't initialized.", ErrorCodes::LOGICAL_ERROR);
}
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void QueryPipeline::checkInitializedAndNotCompleted()
{
checkInitialized();
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if (pipe.isCompleted())
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throw Exception("QueryPipeline was already completed.", ErrorCodes::LOGICAL_ERROR);
}
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static void checkSource(const ProcessorPtr & source, bool can_have_totals)
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{
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);
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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)
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throw Exception("Source for query pipeline should have single output, but " + source->getName() + " has " +
toString(source->getOutputs().size()) + " outputs.", ErrorCodes::LOGICAL_ERROR);
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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);
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}
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void QueryPipeline::init(Pipe pipe_)
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{
if (initialized())
throw Exception("Pipeline has already been initialized.", ErrorCodes::LOGICAL_ERROR);
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if (pipe_.empty())
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throw Exception("Can't initialize pipeline with empty pipe.", ErrorCodes::LOGICAL_ERROR);
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pipe = std::move(pipe_);
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}
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void QueryPipeline::reset()
{
Pipe pipe_to_destroy(std::move(pipe));
*this = QueryPipeline();
}
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void QueryPipeline::addSimpleTransform(const Pipe::ProcessorGetter & getter)
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{
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checkInitializedAndNotCompleted();
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pipe.addSimpleTransform(getter);
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}
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void QueryPipeline::addSimpleTransform(const Pipe::ProcessorGetterWithStreamKind & getter)
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{
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checkInitializedAndNotCompleted();
pipe.addSimpleTransform(getter);
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}
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void QueryPipeline::addTransform(ProcessorPtr transform)
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{
checkInitializedAndNotCompleted();
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pipe.addTransform(std::move(transform));
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}
void QueryPipeline::transform(const Transformer & transformer)
{
checkInitializedAndNotCompleted();
pipe.transform(transformer);
}
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void QueryPipeline::setSinks(const Pipe::ProcessorGetterWithStreamKind & getter)
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{
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checkInitializedAndNotCompleted();
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pipe.setSinks(getter);
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}
void QueryPipeline::addDelayedStream(ProcessorPtr source)
{
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checkInitializedAndNotCompleted();
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checkSource(source, false);
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assertBlocksHaveEqualStructure(getHeader(), source->getOutputs().front().getHeader(), "QueryPipeline");
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IProcessor::PortNumbers delayed_streams = { pipe.numOutputPorts() };
pipe.addSource(std::move(source));
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auto processor = std::make_shared<DelayedPortsProcessor>(getHeader(), pipe.numOutputPorts(), delayed_streams);
addTransform(std::move(processor));
}
void QueryPipeline::addMergingAggregatedMemoryEfficientTransform(AggregatingTransformParamsPtr params, size_t num_merging_processors)
{
DB::addMergingAggregatedMemoryEfficientTransform(pipe, std::move(params), num_merging_processors);
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}
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void QueryPipeline::resize(size_t num_streams, bool force, bool strict)
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{
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checkInitializedAndNotCompleted();
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pipe.resize(num_streams, force, strict);
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}
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void QueryPipeline::addTotalsHavingTransform(ProcessorPtr transform)
{
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checkInitializedAndNotCompleted();
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if (!typeid_cast<const TotalsHavingTransform *>(transform.get()))
throw Exception("TotalsHavingTransform expected for QueryPipeline::addTotalsHavingTransform.",
ErrorCodes::LOGICAL_ERROR);
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if (pipe.getTotalsPort())
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throw Exception("Totals having transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
resize(1);
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auto * totals_port = &transform->getOutputs().back();
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pipe.addTransform(std::move(transform), totals_port, nullptr);
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}
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void QueryPipeline::addDefaultTotals()
{
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checkInitializedAndNotCompleted();
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if (pipe.getTotalsPort())
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throw Exception("Totals having transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
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const auto & current_header = getHeader();
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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));
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pipe.addTotalsSource(std::move(source));
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}
void QueryPipeline::dropTotalsAndExtremes()
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{
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pipe.dropTotals();
pipe.dropExtremes();
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}
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void QueryPipeline::addExtremesTransform()
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{
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checkInitializedAndNotCompleted();
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if (pipe.getExtremesPort())
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throw Exception("Extremes transform was already added to pipeline.", ErrorCodes::LOGICAL_ERROR);
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resize(1);
auto transform = std::make_shared<ExtremesTransform>(getHeader());
auto * port = &transform->getExtremesPort();
pipe.addTransform(std::move(transform), nullptr, port);
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}
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void QueryPipeline::setOutputFormat(ProcessorPtr output)
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{
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checkInitializedAndNotCompleted();
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if (output_format)
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throw Exception("QueryPipeline already has output.", ErrorCodes::LOGICAL_ERROR);
resize(1);
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output_format = dynamic_cast<IOutputFormat * >(output.get());
pipe.setOutputFormat(std::move(output));
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initRowsBeforeLimit();
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}
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QueryPipeline QueryPipeline::unitePipelines(
std::vector<std::unique_ptr<QueryPipeline>> pipelines,
const Block & common_header,
size_t max_threads_limit,
Processors * collected_processors)
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{
/// Should we limit the number of threads for united pipeline. True if all pipelines have max_threads != 0.
/// If true, result max_threads will be sum(max_threads).
/// Note: it may be > than settings.max_threads, so we should apply this limit again.
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bool will_limit_max_threads = true;
size_t max_threads = 0;
Pipes pipes;
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for (auto & pipeline_ptr : pipelines)
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{
auto & pipeline = *pipeline_ptr;
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pipeline.checkInitialized();
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pipeline.pipe.collected_processors = collected_processors;
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if (!pipeline.isCompleted())
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{
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auto actions_dag = ActionsDAG::makeConvertingActions(
pipeline.getHeader().getColumnsWithTypeAndName(),
common_header.getColumnsWithTypeAndName(),
ActionsDAG::MatchColumnsMode::Position);
auto actions = std::make_shared<ExpressionActions>(actions_dag);
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pipeline.addSimpleTransform([&](const Block & header)
{
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return std::make_shared<ExpressionTransform>(header, actions);
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});
}
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pipes.emplace_back(std::move(pipeline.pipe));
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max_threads += pipeline.max_threads;
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will_limit_max_threads = will_limit_max_threads && pipeline.max_threads != 0;
/// If one of pipelines uses more threads then current limit, will keep it.
/// It may happen if max_distributed_connections > max_threads
if (pipeline.max_threads > max_threads_limit)
max_threads_limit = pipeline.max_threads;
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}
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QueryPipeline pipeline;
pipeline.init(Pipe::unitePipes(std::move(pipes), collected_processors));
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if (will_limit_max_threads)
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{
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pipeline.setMaxThreads(max_threads);
pipeline.limitMaxThreads(max_threads_limit);
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}
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return pipeline;
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}
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void QueryPipeline::addCreatingSetsTransform(const Block & res_header, SubqueryForSet subquery_for_set, const SizeLimits & limits, const Context & context)
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{
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resize(1);
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auto transform = std::make_shared<CreatingSetsTransform>(
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getHeader(),
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res_header,
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std::move(subquery_for_set),
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limits,
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context);
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InputPort * totals_port = nullptr;
if (pipe.getTotalsPort())
totals_port = transform->addTotalsPort();
pipe.addTransform(std::move(transform), totals_port, nullptr);
}
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void QueryPipeline::addPipelineBefore(QueryPipeline pipeline)
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{
checkInitializedAndNotCompleted();
assertBlocksHaveEqualStructure(getHeader(), pipeline.getHeader(), "QueryPipeline");
IProcessor::PortNumbers delayed_streams(pipe.numOutputPorts());
for (size_t i = 0; i < delayed_streams.size(); ++i)
delayed_streams[i] = i;
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auto * collected_processors = pipe.collected_processors;
Pipes pipes;
pipes.emplace_back(std::move(pipe));
pipes.emplace_back(QueryPipeline::getPipe(std::move(pipeline)));
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pipe = Pipe::unitePipes(std::move(pipes), collected_processors);
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auto processor = std::make_shared<DelayedPortsProcessor>(getHeader(), pipe.numOutputPorts(), delayed_streams, true);
addTransform(std::move(processor));
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}
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void QueryPipeline::setProgressCallback(const ProgressCallback & callback)
{
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for (auto & processor : pipe.processors)
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{
if (auto * source = dynamic_cast<ISourceWithProgress *>(processor.get()))
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source->setProgressCallback(callback);
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}
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}
void QueryPipeline::setProcessListElement(QueryStatus * elem)
{
process_list_element = elem;
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for (auto & processor : pipe.processors)
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{
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if (auto * source = dynamic_cast<ISourceWithProgress *>(processor.get()))
source->setProcessListElement(elem);
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}
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}
void QueryPipeline::initRowsBeforeLimit()
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{
RowsBeforeLimitCounterPtr rows_before_limit_at_least;
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/// TODO: add setRowsBeforeLimitCounter as virtual method to IProcessor.
std::vector<LimitTransform *> limits;
std::vector<SourceFromInputStream *> sources;
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std::vector<RemoteSource *> remote_sources;
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std::unordered_set<IProcessor *> visited;
struct QueuedEntry
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{
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IProcessor * processor;
bool visited_limit;
};
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std::queue<QueuedEntry> queue;
queue.push({ output_format, false });
visited.emplace(output_format);
while (!queue.empty())
{
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auto * processor = queue.front().processor;
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auto visited_limit = queue.front().visited_limit;
queue.pop();
if (!visited_limit)
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{
if (auto * limit = typeid_cast<LimitTransform *>(processor))
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{
visited_limit = true;
limits.emplace_back(limit);
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}
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if (auto * source = typeid_cast<SourceFromInputStream *>(processor))
sources.emplace_back(source);
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if (auto * source = typeid_cast<RemoteSource *>(processor))
remote_sources.emplace_back(source);
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}
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else if (auto * sorting = typeid_cast<PartialSortingTransform *>(processor))
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{
if (!rows_before_limit_at_least)
rows_before_limit_at_least = std::make_shared<RowsBeforeLimitCounter>();
sorting->setRowsBeforeLimitCounter(rows_before_limit_at_least);
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/// Don't go to children. Take rows_before_limit from last PartialSortingTransform.
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continue;
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}
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/// Skip totals and extremes port for output format.
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if (auto * format = dynamic_cast<IOutputFormat *>(processor))
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{
auto * child_processor = &format->getPort(IOutputFormat::PortKind::Main).getOutputPort().getProcessor();
if (visited.emplace(child_processor).second)
queue.push({ child_processor, visited_limit });
continue;
}
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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 });
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}
}
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if (!rows_before_limit_at_least && (!limits.empty() || !sources.empty() || !remote_sources.empty()))
{
rows_before_limit_at_least = std::make_shared<RowsBeforeLimitCounter>();
for (auto & limit : limits)
limit->setRowsBeforeLimitCounter(rows_before_limit_at_least);
for (auto & source : sources)
source->setRowsBeforeLimitCounter(rows_before_limit_at_least);
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for (auto & source : remote_sources)
source->setRowsBeforeLimitCounter(rows_before_limit_at_least);
}
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/// If there is a limit, then enable rows_before_limit_at_least
/// It is needed when zero rows is read, but we still want rows_before_limit_at_least in result.
if (!limits.empty())
rows_before_limit_at_least->add(0);
if (rows_before_limit_at_least)
output_format->setRowsBeforeLimitCounter(rows_before_limit_at_least);
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}
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PipelineExecutorPtr QueryPipeline::execute()
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{
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if (!isCompleted())
throw Exception("Cannot execute pipeline because it is not completed.", ErrorCodes::LOGICAL_ERROR);
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return std::make_shared<PipelineExecutor>(pipe.processors, process_list_element);
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}
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void QueryPipeline::setCollectedProcessors(Processors * processors)
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{
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pipe.collected_processors = processors;
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}
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QueryPipelineProcessorsCollector::QueryPipelineProcessorsCollector(QueryPipeline & pipeline_, IQueryPlanStep * step_)
: pipeline(pipeline_), step(step_)
{
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pipeline.setCollectedProcessors(&processors);
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}
QueryPipelineProcessorsCollector::~QueryPipelineProcessorsCollector()
{
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pipeline.setCollectedProcessors(nullptr);
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}
Processors QueryPipelineProcessorsCollector::detachProcessors(size_t group)
{
for (auto & processor : processors)
processor->setQueryPlanStep(step, group);
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Processors res;
res.swap(processors);
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return res;
}
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}