Coverage Report

Created: 2026-07-14 17:43

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/util/work_thread_pool.hpp
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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 <mutex>
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#include "util/blocking_priority_queue.hpp"
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#include "util/blocking_queue.hpp"
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#include "util/thread.h"
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#include "util/thread_group.h"
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namespace doris {
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// Simple threadpool which processes items (of type T) in parallel which were placed on a
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// blocking queue by Offer(). Each item is processed by a single user-supplied method.
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template <bool Priority = false>
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class WorkThreadPool {
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public:
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    // Signature of a work-processing function. Takes the integer id of the thread which is
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    // calling it (ids run from 0 to num_threads - 1) and a reference to the item to
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    // process.
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    using WorkFunction = std::function<void()>;
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    struct Task {
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    public:
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        int priority;
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        WorkFunction work_function;
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        bool operator<(const Task& o) const { return priority < o.priority; }
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        Task& operator++() {
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            priority += 2;
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            return *this;
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        }
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    };
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    using WorkQueue =
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            std::conditional_t<Priority, BlockingPriorityQueue<Task>, BlockingQueue<Task>>;
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    // Creates a new thread pool and start num_threads threads.
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    //  -- num_threads: how many threads are part of this pool
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    //  -- queue_size: the maximum size of the queue on which work items are offered. If the
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    //     queue exceeds this size, subsequent calls to Offer will block until there is
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    //     capacity available.
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    WorkThreadPool(uint32_t num_threads, uint32_t queue_size, const std::string& name)
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            : _work_queue(queue_size), _shutdown(false), _name(name), _active_threads(0) {
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        for (int i = 0; i < num_threads; ++i) {
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            _threads.create_thread(
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                    std::bind<void>(std::mem_fn(&WorkThreadPool::work_thread), this, i));
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        }
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        LOG(INFO) << fmt::format("{} '{}' initialized: num_threads={}, queue_size={}",
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                                 (Priority ? "PriorityThreadPool" : "WorkThreadPool"), _name,
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                                 num_threads, queue_size);
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    }
_ZN5doris14WorkThreadPoolILb0EEC2EjjRKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE
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            : _work_queue(queue_size), _shutdown(false), _name(name), _active_threads(0) {
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        for (int i = 0; i < num_threads; ++i) {
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            _threads.create_thread(
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                    std::bind<void>(std::mem_fn(&WorkThreadPool::work_thread), this, i));
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        }
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        LOG(INFO) << fmt::format("{} '{}' initialized: num_threads={}, queue_size={}",
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                                 (Priority ? "PriorityThreadPool" : "WorkThreadPool"), _name,
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                                 num_threads, queue_size);
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    }
_ZN5doris14WorkThreadPoolILb1EEC2EjjRKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE
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            : _work_queue(queue_size), _shutdown(false), _name(name), _active_threads(0) {
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        for (int i = 0; i < num_threads; ++i) {
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            _threads.create_thread(
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                    std::bind<void>(std::mem_fn(&WorkThreadPool::work_thread), this, i));
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        }
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        LOG(INFO) << fmt::format("{} '{}' initialized: num_threads={}, queue_size={}",
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                                 (Priority ? "PriorityThreadPool" : "WorkThreadPool"), _name,
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                                 num_threads, queue_size);
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    }
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    // Destructor ensures that all threads are terminated before this object is freed
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    // (otherwise they may continue to run and reference member variables)
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    virtual ~WorkThreadPool() {
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        shutdown();
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        join();
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    }
_ZN5doris14WorkThreadPoolILb0EED2Ev
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    virtual ~WorkThreadPool() {
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        shutdown();
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        join();
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    }
_ZN5doris14WorkThreadPoolILb1EED2Ev
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    virtual ~WorkThreadPool() {
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        shutdown();
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        join();
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    }
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    // Blocking operation that puts a work item on the queue. If the queue is full, blocks
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    // until there is capacity available.
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    //
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    // 'work' is copied into the work queue, but may be referenced at any time in the
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    // future. Therefore the caller needs to ensure that any data referenced by work (if T
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    // is, e.g., a pointer type) remains valid until work has been processed, and it's up to
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    // the caller to provide their own signalling mechanism to detect this (or to wait until
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    // after DrainAndshutdown returns).
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    //
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    // Returns true if the work item was successfully added to the queue, false otherwise
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    // (which typically means that the thread pool has already been shut down).
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    virtual bool offer(Task task) { return _work_queue.blocking_put(task); }
Unexecuted instantiation: _ZN5doris14WorkThreadPoolILb0EE5offerENS1_4TaskE
_ZN5doris14WorkThreadPoolILb1EE5offerENS1_4TaskE
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    virtual bool offer(Task task) { return _work_queue.blocking_put(task); }
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    virtual bool offer(WorkFunction func) {
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        WorkThreadPool::Task task = {0, func};
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        return _work_queue.blocking_put(task);
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    }
Unexecuted instantiation: _ZN5doris14WorkThreadPoolILb0EE5offerESt8functionIFvvEE
_ZN5doris14WorkThreadPoolILb1EE5offerESt8functionIFvvEE
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    virtual bool offer(WorkFunction func) {
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        WorkThreadPool::Task task = {0, func};
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        return _work_queue.blocking_put(task);
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    }
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    virtual bool try_offer(WorkFunction func) {
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        WorkThreadPool::Task task = {0, func};
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        return _work_queue.try_put(task);
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    }
_ZN5doris14WorkThreadPoolILb0EE9try_offerESt8functionIFvvEE
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    virtual bool try_offer(WorkFunction func) {
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        WorkThreadPool::Task task = {0, func};
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        return _work_queue.try_put(task);
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    }
Unexecuted instantiation: _ZN5doris14WorkThreadPoolILb1EE9try_offerESt8functionIFvvEE
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    // Shuts the thread pool down, causing the work queue to cease accepting offered work
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    // and the worker threads to terminate once they have processed their current work item.
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    // Returns once the shutdown flag has been set, does not wait for the threads to
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    // terminate.
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    virtual void shutdown() {
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        _shutdown = true;
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        _work_queue.shutdown();
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    }
_ZN5doris14WorkThreadPoolILb0EE8shutdownEv
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    virtual void shutdown() {
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        _shutdown = true;
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        _work_queue.shutdown();
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    }
_ZN5doris14WorkThreadPoolILb1EE8shutdownEv
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    virtual void shutdown() {
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        _shutdown = true;
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        _work_queue.shutdown();
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    }
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    // Blocks until all threads are finished. shutdown does not need to have been called,
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    // since it may be called on a separate thread.
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    virtual void join() { static_cast<void>(_threads.join_all()); }
_ZN5doris14WorkThreadPoolILb0EE4joinEv
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    virtual void join() { static_cast<void>(_threads.join_all()); }
_ZN5doris14WorkThreadPoolILb1EE4joinEv
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    virtual void join() { static_cast<void>(_threads.join_all()); }
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    virtual uint32_t get_queue_size() const { return _work_queue.get_size(); }
_ZNK5doris14WorkThreadPoolILb0EE14get_queue_sizeEv
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    virtual uint32_t get_queue_size() const { return _work_queue.get_size(); }
_ZNK5doris14WorkThreadPoolILb1EE14get_queue_sizeEv
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    virtual uint32_t get_queue_size() const { return _work_queue.get_size(); }
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    virtual uint32_t get_active_threads() const { return _active_threads; }
Unexecuted instantiation: _ZNK5doris14WorkThreadPoolILb0EE18get_active_threadsEv
Unexecuted instantiation: _ZNK5doris14WorkThreadPoolILb1EE18get_active_threadsEv
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    // Blocks until the work queue is empty, and then calls shutdown to stop the worker
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    // threads and Join to wait until they are finished.
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    // Any work Offer()'ed during DrainAndshutdown may or may not be processed.
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    virtual void drain_and_shutdown() {
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        {
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            std::unique_lock l(_lock);
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            while (_work_queue.get_size() != 0) {
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                _empty_cv.wait(l);
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            }
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        }
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        shutdown();
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        join();
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    }
Unexecuted instantiation: _ZN5doris14WorkThreadPoolILb0EE18drain_and_shutdownEv
Unexecuted instantiation: _ZN5doris14WorkThreadPoolILb1EE18drain_and_shutdownEv
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    std::string get_info() const {
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        return (Priority ? "PriorityThreadPool" : "FifoThreadPool") +
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               fmt::format(
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                       "(name={}, queue_size={}/{}, active_thread={}/{}, "
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                       "total_get_wait_time={}, total_put_wait_time={}, is_shutdown={})",
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                       _name, get_queue_size(), _work_queue.get_capacity(), _active_threads,
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                       _threads.size(), _work_queue.total_get_wait_time(),
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                       _work_queue.total_put_wait_time(), is_shutdown());
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    }
_ZNK5doris14WorkThreadPoolILb0EE8get_infoB5cxx11Ev
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    std::string get_info() const {
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        return (Priority ? "PriorityThreadPool" : "FifoThreadPool") +
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               fmt::format(
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                       "(name={}, queue_size={}/{}, active_thread={}/{}, "
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                       "total_get_wait_time={}, total_put_wait_time={}, is_shutdown={})",
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                       _name, get_queue_size(), _work_queue.get_capacity(), _active_threads,
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                       _threads.size(), _work_queue.total_get_wait_time(),
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                       _work_queue.total_put_wait_time(), is_shutdown());
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    }
_ZNK5doris14WorkThreadPoolILb1EE8get_infoB5cxx11Ev
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    std::string get_info() const {
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        return (Priority ? "PriorityThreadPool" : "FifoThreadPool") +
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               fmt::format(
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                       "(name={}, queue_size={}/{}, active_thread={}/{}, "
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                       "total_get_wait_time={}, total_put_wait_time={}, is_shutdown={})",
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                       _name, get_queue_size(), _work_queue.get_capacity(), _active_threads,
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                       _threads.size(), _work_queue.total_get_wait_time(),
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                       _work_queue.total_put_wait_time(), is_shutdown());
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    }
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protected:
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    virtual bool is_shutdown() const { return _shutdown; }
_ZNK5doris14WorkThreadPoolILb0EE11is_shutdownEv
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    virtual bool is_shutdown() const { return _shutdown; }
_ZNK5doris14WorkThreadPoolILb1EE11is_shutdownEv
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    virtual bool is_shutdown() const { return _shutdown; }
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    // Collection of worker threads that process work from the queue.
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    ThreadGroup _threads;
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    // Guards _empty_cv
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    std::mutex _lock;
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    // Signalled when the queue becomes empty
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    std::condition_variable _empty_cv;
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private:
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    // Driver method for each thread in the pool. Continues to read work from the queue
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    // until the pool is shutdown.
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    void work_thread(int thread_id) {
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        Thread::set_self_name(_name);
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        LOG(INFO) << "WorkThreadPool started: " << get_info();
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        while (!is_shutdown()) {
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            Task task;
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            if (_work_queue.blocking_get(&task)) {
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                _active_threads++;
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                task.work_function();
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                _active_threads--;
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            }
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            if (_work_queue.get_size() == 0) {
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                _empty_cv.notify_all();
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            }
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        }
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        LOG(INFO) << "WorkThreadPool shutdown: " << get_info();
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    }
_ZN5doris14WorkThreadPoolILb0EE11work_threadEi
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    void work_thread(int thread_id) {
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        Thread::set_self_name(_name);
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        LOG(INFO) << "WorkThreadPool started: " << get_info();
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        while (!is_shutdown()) {
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            Task task;
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            if (_work_queue.blocking_get(&task)) {
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                _active_threads++;
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                task.work_function();
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                _active_threads--;
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            }
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            if (_work_queue.get_size() == 0) {
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                _empty_cv.notify_all();
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            }
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        }
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        LOG(INFO) << "WorkThreadPool shutdown: " << get_info();
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    }
_ZN5doris14WorkThreadPoolILb1EE11work_threadEi
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    void work_thread(int thread_id) {
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        Thread::set_self_name(_name);
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        LOG(INFO) << "WorkThreadPool started: " << get_info();
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        while (!is_shutdown()) {
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            Task task;
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            if (_work_queue.blocking_get(&task)) {
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                _active_threads++;
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                task.work_function();
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                _active_threads--;
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            }
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            if (_work_queue.get_size() == 0) {
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                _empty_cv.notify_all();
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            }
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        }
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        LOG(INFO) << "WorkThreadPool shutdown: " << get_info();
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    }
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    WorkQueue _work_queue;
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    // Set to true when threads should stop doing work and terminate.
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    std::atomic<bool> _shutdown;
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    std::string _name;
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    std::atomic<int> _active_threads;
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};
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using PriorityThreadPool = WorkThreadPool<true>;
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using FifoThreadPool = WorkThreadPool<false>;
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} // namespace doris