Coverage Report

Created: 2024-11-21 14:46

/root/doris/be/src/pipeline/pipeline.h
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// Licensed to the Apache Software Foundation (ASF) under one
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// or more contributor license agreements.  See the NOTICE file
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// distributed with this work for additional information
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// regarding copyright ownership.  The ASF licenses this file
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// to you under the Apache License, Version 2.0 (the
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// "License"); you may not use this file except in compliance
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// with the License.  You may obtain a copy of the License at
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//
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//   http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing,
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// software distributed under the License is distributed on an
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// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied.  See the License for the
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// specific language governing permissions and limitations
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// under the License.
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#pragma once
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#include <glog/logging.h>
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#include <cstdint>
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#include <memory>
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#include <string_view>
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#include <utility>
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#include <vector>
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#include "common/status.h"
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#include "pipeline/exec/operator.h"
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#include "pipeline/pipeline_x/operator.h"
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#include "util/runtime_profile.h"
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namespace doris::pipeline {
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class PipelineFragmentContext;
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class Pipeline;
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using PipelinePtr = std::shared_ptr<Pipeline>;
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using Pipelines = std::vector<PipelinePtr>;
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using PipelineId = uint32_t;
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class Pipeline : public std::enable_shared_from_this<Pipeline> {
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    friend class PipelineTask;
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    friend class PipelineXTask;
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    friend class PipelineXFragmentContext;
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public:
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    Pipeline() = delete;
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    explicit Pipeline(PipelineId pipeline_id, int num_tasks,
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                      std::weak_ptr<PipelineFragmentContext> context)
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            : _pipeline_id(pipeline_id), _context(std::move(context)), _num_tasks(num_tasks) {
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        _init_profile();
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        _tasks.resize(_num_tasks, nullptr);
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    }
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    void add_dependency(std::shared_ptr<Pipeline>& pipeline) {
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        pipeline->_parents.emplace_back(_operator_builders.size(), weak_from_this());
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        _dependencies.emplace_back(_operator_builders.size(), pipeline);
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    }
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    // If all dependencies are finished, this pipeline task should be scheduled.
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    // e.g. Hash join probe task will be scheduled once Hash join build task is finished.
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    void finish_one_dependency(int dep_opr, int dependency_core_id) {
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        std::lock_guard l(_depend_mutex);
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        if (!_operators.empty() && _operators[dep_opr - 1]->can_terminate_early()) {
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            _always_can_read = true;
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            _always_can_write = (dep_opr == _operators.size());
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            for (int i = 0; i < _dependencies.size(); ++i) {
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                if (dep_opr == _dependencies[i].first) {
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                    _dependencies.erase(_dependencies.begin(), _dependencies.begin() + i + 1);
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                    break;
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                }
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            }
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        } else {
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            for (int i = 0; i < _dependencies.size(); ++i) {
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                if (dep_opr == _dependencies[i].first) {
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                    _dependencies.erase(_dependencies.begin() + i);
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                    break;
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                }
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            }
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        }
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        if (_dependencies.empty()) {
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            _previous_schedule_id = dependency_core_id;
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        }
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    }
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    bool has_dependency() {
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        std::lock_guard l(_depend_mutex);
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        return !_dependencies.empty();
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    }
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    Status add_operator(OperatorBuilderPtr& op);
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    // Add operators for pipelineX
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    Status add_operator(OperatorXPtr& op);
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    // prepare operators for pipelineX
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    Status prepare(RuntimeState* state);
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    Status set_sink_builder(OperatorBuilderPtr& sink_operator_builder);
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    Status set_sink(DataSinkOperatorXPtr& sink_operator);
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    OperatorBuilderBase* get_sink_builder() { return _sink_builder.get(); }
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    DataSinkOperatorXBase* sink_x() { return _sink_x.get(); }
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    OperatorXs& operator_xs() { return operatorXs; }
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    DataSinkOperatorXPtr sink_shared_pointer() { return _sink_x; }
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    Status build_operators();
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    RuntimeProfile* pipeline_profile() { return _pipeline_profile.get(); }
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    [[nodiscard]] const RowDescriptor& output_row_desc() const {
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        return operatorXs.back()->row_desc();
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    }
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    [[nodiscard]] PipelineId id() const { return _pipeline_id; }
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    void set_is_root_pipeline() { _is_root_pipeline = true; }
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    bool is_root_pipeline() const { return _is_root_pipeline; }
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    static bool is_hash_exchange(ExchangeType idx) {
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        return idx == ExchangeType::HASH_SHUFFLE || idx == ExchangeType::BUCKET_HASH_SHUFFLE;
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    }
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    bool need_to_local_exchange(const DataDistribution target_data_distribution) const {
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        if (target_data_distribution.distribution_type != ExchangeType::BUCKET_HASH_SHUFFLE &&
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            target_data_distribution.distribution_type != ExchangeType::HASH_SHUFFLE) {
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            return true;
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        } else if (operatorXs.front()->ignore_data_hash_distribution()) {
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            if (_data_distribution.distribution_type ==
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                        target_data_distribution.distribution_type &&
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                (_data_distribution.partition_exprs.empty() ||
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                 target_data_distribution.partition_exprs.empty())) {
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                return true;
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            }
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            return _data_distribution.distribution_type !=
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                           target_data_distribution.distribution_type &&
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                   !(is_hash_exchange(_data_distribution.distribution_type) &&
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                     is_hash_exchange(target_data_distribution.distribution_type));
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        } else {
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            return _data_distribution.distribution_type !=
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                           target_data_distribution.distribution_type &&
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                   !(is_hash_exchange(_data_distribution.distribution_type) &&
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                     is_hash_exchange(target_data_distribution.distribution_type));
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        }
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    }
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    void init_data_distribution() {
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        set_data_distribution(operatorXs.front()->required_data_distribution());
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    }
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    void set_data_distribution(const DataDistribution& data_distribution) {
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        _data_distribution = data_distribution;
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    }
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    const DataDistribution& data_distribution() const { return _data_distribution; }
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    std::vector<std::shared_ptr<Pipeline>>& children() { return _children; }
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    void set_children(std::shared_ptr<Pipeline> child) { _children.push_back(child); }
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    void set_children(std::vector<std::shared_ptr<Pipeline>> children) { _children = children; }
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    void incr_created_tasks(int i, PipelineTask* task) {
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        _num_tasks_created++;
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        _num_tasks_running++;
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        DCHECK_LT(i, _tasks.size());
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        _tasks[i] = task;
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    }
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    void make_all_runnable();
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    void set_num_tasks(int num_tasks) {
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        _num_tasks = num_tasks;
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        _tasks.resize(_num_tasks, nullptr);
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        for (auto& op : operatorXs) {
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            op->set_parallel_tasks(_num_tasks);
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        }
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    }
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    int num_tasks() const { return _num_tasks; }
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    bool close_task() { return _num_tasks_running.fetch_sub(1) == 1; }
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    std::string debug_string() {
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        fmt::memory_buffer debug_string_buffer;
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        fmt::format_to(debug_string_buffer,
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                       "Pipeline [id: {}, _num_tasks: {}, _num_tasks_created: {}]", _pipeline_id,
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                       _num_tasks, _num_tasks_created);
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        for (size_t i = 0; i < operatorXs.size(); i++) {
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            fmt::format_to(debug_string_buffer, "\n{}", operatorXs[i]->debug_string(i));
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        }
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        fmt::format_to(debug_string_buffer, "\n{}", _sink_x->debug_string(operatorXs.size()));
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        return fmt::to_string(debug_string_buffer);
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    }
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private:
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    void _init_profile();
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    OperatorBuilders _operator_builders; // left is _source, right is _root
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    OperatorBuilderPtr _sink_builder;    // put block to sink
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    std::mutex _depend_mutex;
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    std::vector<std::pair<int, std::weak_ptr<Pipeline>>> _parents;
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    std::vector<std::pair<int, std::shared_ptr<Pipeline>>> _dependencies;
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    std::vector<std::shared_ptr<Pipeline>> _children;
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    PipelineId _pipeline_id;
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    std::weak_ptr<PipelineFragmentContext> _context;
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    int _previous_schedule_id = -1;
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    // pipline id + operator names. init when:
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    //  build_operators(), if pipeline;
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    //  _build_pipelines() and _create_tree_helper(), if pipelineX.
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    std::string _name;
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    std::unique_ptr<RuntimeProfile> _pipeline_profile;
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    // Operators for pipelineX. All pipeline tasks share operators from this.
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    // [SourceOperator -> ... -> SinkOperator]
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    OperatorXs operatorXs;
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    DataSinkOperatorXPtr _sink_x = nullptr;
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    std::shared_ptr<ObjectPool> _obj_pool;
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    Operators _operators;
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    /**
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     * Consider the query plan below:
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     *
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     *      ExchangeSource     JoinBuild1
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     *            \              /
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     *         JoinProbe1 (Right Outer)    JoinBuild2
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     *                   \                   /
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     *                 JoinProbe2 (Right Outer)
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     *                          |
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     *                        Sink
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     *
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     * Assume JoinBuild1/JoinBuild2 outputs 0 rows, this pipeline task should not be blocked by ExchangeSource
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     * because we have a determined conclusion that JoinProbe1/JoinProbe2 will also output 0 rows.
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     *
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     * Assume JoinBuild2 outputs > 0 rows, this pipeline task may be blocked by Sink because JoinProbe2 will
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     * produce more data.
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     *
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     * Assume both JoinBuild2 outputs 0 rows this pipeline task should not be blocked by ExchangeSource
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     * and Sink because JoinProbe2 will always produce 0 rows and terminate early.
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     *
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     * In a nutshell, we should follow the rules:
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     * 1. if any operator in pipeline can terminate early, this task should never be blocked by source operator.
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     * 2. if the last operator (except sink) can terminate early, this task should never be blocked by sink operator.
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     */
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    bool _always_can_read = false;
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    bool _always_can_write = false;
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    bool _is_root_pipeline = false;
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    // Input data distribution of this pipeline. We do local exchange when input data distribution
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    // does not match the target data distribution.
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    DataDistribution _data_distribution {ExchangeType::NOOP};
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    // How many tasks should be created ?
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    int _num_tasks = 1;
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    // How many tasks are already created?
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    std::atomic<int> _num_tasks_created = 0;
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    // How many tasks are already created and not finished?
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    std::atomic<int> _num_tasks_running = 0;
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    // Tasks in this pipeline.
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    std::vector<PipelineTask*> _tasks;
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};
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} // namespace doris::pipeline