c-resources/CPlusPlus20ForProgrammers-m.../examples/libraries/concurrencpp/source/runtime/runtime.cpp

#include "concurrencpp/runtime/runtime.h"
#include "concurrencpp/runtime/constants.h"

#include "concurrencpp/executors/constants.h"
#include "concurrencpp/executors/inline_executor.h"
#include "concurrencpp/executors/thread_pool_executor.h"
#include "concurrencpp/executors/thread_executor.h"
#include "concurrencpp/executors/worker_thread_executor.h"
#include "concurrencpp/executors/manual_executor.h"

#include "concurrencpp/timers/timer_queue.h"

namespace concurrencpp::details {
    size_t default_max_cpu_workers() noexcept {
        return static_cast<size_t>(thread::hardware_concurrency() * consts::k_cpu_threadpool_worker_count_factor);
    }

    size_t default_max_background_workers() noexcept {
        return static_cast<size_t>(thread::hardware_concurrency() * consts::k_background_threadpool_worker_count_factor);
    }

    constexpr static auto k_default_max_worker_wait_time = std::chrono::seconds(consts::k_max_threadpool_worker_waiting_time_sec);
}  // namespace concurrencpp::details

using concurrencpp::runtime;
using concurrencpp::runtime_options;
using concurrencpp::details::executor_collection;

/*
        executor_collection;
*/

void executor_collection::register_executor(std::shared_ptr<executor> executor) {
    assert(static_cast<bool>(executor));

    std::unique_lock<decltype(m_lock)> lock(m_lock);
    assert(std::find(m_executors.begin(), m_executors.end(), executor) == m_executors.end());
    m_executors.emplace_back(std::move(executor));
}

void executor_collection::shutdown_all() {
    std::unique_lock<decltype(m_lock)> lock(m_lock);
    for (auto& executor : m_executors) {
        assert(static_cast<bool>(executor));
        executor->shutdown();
    }

    m_executors = {};
}

/*
        runtime_options
*/

runtime_options::runtime_options() noexcept :
    max_cpu_threads(details::default_max_cpu_workers()),
    max_thread_pool_executor_waiting_time(details::k_default_max_worker_wait_time),
    max_background_threads(details::default_max_background_workers()),
    max_background_executor_waiting_time(details::k_default_max_worker_wait_time),
    max_timer_queue_waiting_time(std::chrono::seconds(details::consts::k_max_timer_queue_worker_waiting_time_sec)) {}

/*
        runtime
*/

runtime::runtime() : runtime(runtime_options()) {}

runtime::runtime(const runtime_options& options) {
    m_timer_queue = std::make_shared<::concurrencpp::timer_queue>(options.max_timer_queue_waiting_time);

    m_inline_executor = std::make_shared<::concurrencpp::inline_executor>();
    m_registered_executors.register_executor(m_inline_executor);

    m_thread_pool_executor = std::make_shared<::concurrencpp::thread_pool_executor>(details::consts::k_thread_pool_executor_name,
                                                                                    options.max_cpu_threads,
                                                                                    options.max_thread_pool_executor_waiting_time);
    m_registered_executors.register_executor(m_thread_pool_executor);

    m_background_executor = std::make_shared<::concurrencpp::thread_pool_executor>(details::consts::k_background_executor_name,
                                                                                   options.max_background_threads,
                                                                                   options.max_background_executor_waiting_time);
    m_registered_executors.register_executor(m_background_executor);

    m_thread_executor = std::make_shared<::concurrencpp::thread_executor>();
    m_registered_executors.register_executor(m_thread_executor);
}

concurrencpp::runtime::~runtime() noexcept {
    try {
        m_timer_queue->shutdown();
        m_registered_executors.shutdown_all();

    } catch (...) {
        std::abort();
    }
}

std::shared_ptr<concurrencpp::timer_queue> runtime::timer_queue() const noexcept {
    return m_timer_queue;
}

std::shared_ptr<concurrencpp::inline_executor> runtime::inline_executor() const noexcept {
    return m_inline_executor;
}

std::shared_ptr<concurrencpp::thread_pool_executor> runtime::thread_pool_executor() const noexcept {
    return m_thread_pool_executor;
}

std::shared_ptr<concurrencpp::thread_pool_executor> runtime::background_executor() const noexcept {
    return m_background_executor;
}

std::shared_ptr<concurrencpp::thread_executor> runtime::thread_executor() const noexcept {
    return m_thread_executor;
}

std::shared_ptr<concurrencpp::worker_thread_executor> runtime::make_worker_thread_executor() {
    auto executor = std::make_shared<worker_thread_executor>();
    m_registered_executors.register_executor(executor);
    return executor;
}

std::shared_ptr<concurrencpp::manual_executor> runtime::make_manual_executor() {
    auto executor = std::make_shared<concurrencpp::manual_executor>();
    m_registered_executors.register_executor(executor);
    return executor;
}

std::tuple<unsigned int, unsigned int, unsigned int> runtime::version() noexcept {
    return {details::consts::k_concurrencpp_version_major,
            details::consts::k_concurrencpp_version_minor,
            details::consts::k_concurrencpp_version_revision};
}
some changes to chapter 6 2024-04-09 06:45:18 +00:00			`#include "concurrencpp/runtime/runtime.h"`
			`#include "concurrencpp/runtime/constants.h"`

			`#include "concurrencpp/executors/constants.h"`
			`#include "concurrencpp/executors/inline_executor.h"`
			`#include "concurrencpp/executors/thread_pool_executor.h"`
			`#include "concurrencpp/executors/thread_executor.h"`
			`#include "concurrencpp/executors/worker_thread_executor.h"`
			`#include "concurrencpp/executors/manual_executor.h"`

			`#include "concurrencpp/timers/timer_queue.h"`

			`namespace concurrencpp::details {`
			`size_t default_max_cpu_workers() noexcept {`
			`return static_cast<size_t>(thread::hardware_concurrency() * consts::k_cpu_threadpool_worker_count_factor);`
			`}`

			`size_t default_max_background_workers() noexcept {`
			`return static_cast<size_t>(thread::hardware_concurrency() * consts::k_background_threadpool_worker_count_factor);`
			`}`

			`constexpr static auto k_default_max_worker_wait_time = std::chrono::seconds(consts::k_max_threadpool_worker_waiting_time_sec);`
			`} // namespace concurrencpp::details`

			`using concurrencpp::runtime;`
			`using concurrencpp::runtime_options;`
			`using concurrencpp::details::executor_collection;`

			`/*`
			`executor_collection;`
			`*/`

			`void executor_collection::register_executor(std::shared_ptr<executor> executor) {`
			`assert(static_cast<bool>(executor));`

			`std::unique_lock<decltype(m_lock)> lock(m_lock);`
			`assert(std::find(m_executors.begin(), m_executors.end(), executor) == m_executors.end());`
			`m_executors.emplace_back(std::move(executor));`
			`}`

			`void executor_collection::shutdown_all() {`
			`std::unique_lock<decltype(m_lock)> lock(m_lock);`
			`for (auto& executor : m_executors) {`
			`assert(static_cast<bool>(executor));`
			`executor->shutdown();`
			`}`

			`m_executors = {};`
			`}`

			`/*`
			`runtime_options`
			`*/`

			`runtime_options::runtime_options() noexcept :`
			`max_cpu_threads(details::default_max_cpu_workers()),`
			`max_thread_pool_executor_waiting_time(details::k_default_max_worker_wait_time),`
			`max_background_threads(details::default_max_background_workers()),`
			`max_background_executor_waiting_time(details::k_default_max_worker_wait_time),`
			`max_timer_queue_waiting_time(std::chrono::seconds(details::consts::k_max_timer_queue_worker_waiting_time_sec)) {}`

			`/*`
			`runtime`
			`*/`

			`runtime::runtime() : runtime(runtime_options()) {}`

			`runtime::runtime(const runtime_options& options) {`
			`m_timer_queue = std::make_shared<::concurrencpp::timer_queue>(options.max_timer_queue_waiting_time);`

			`m_inline_executor = std::make_shared<::concurrencpp::inline_executor>();`
			`m_registered_executors.register_executor(m_inline_executor);`

			`m_thread_pool_executor = std::make_shared<::concurrencpp::thread_pool_executor>(details::consts::k_thread_pool_executor_name,`
			`options.max_cpu_threads,`
			`options.max_thread_pool_executor_waiting_time);`
			`m_registered_executors.register_executor(m_thread_pool_executor);`

			`m_background_executor = std::make_shared<::concurrencpp::thread_pool_executor>(details::consts::k_background_executor_name,`
			`options.max_background_threads,`
			`options.max_background_executor_waiting_time);`
			`m_registered_executors.register_executor(m_background_executor);`

			`m_thread_executor = std::make_shared<::concurrencpp::thread_executor>();`
			`m_registered_executors.register_executor(m_thread_executor);`
			`}`

			`concurrencpp::runtime::~runtime() noexcept {`
			`try {`
			`m_timer_queue->shutdown();`
			`m_registered_executors.shutdown_all();`

			`} catch (...) {`
			`std::abort();`
			`}`
			`}`

			`std::shared_ptr<concurrencpp::timer_queue> runtime::timer_queue() const noexcept {`
			`return m_timer_queue;`
			`}`

			`std::shared_ptr<concurrencpp::inline_executor> runtime::inline_executor() const noexcept {`
			`return m_inline_executor;`
			`}`

			`std::shared_ptr<concurrencpp::thread_pool_executor> runtime::thread_pool_executor() const noexcept {`
			`return m_thread_pool_executor;`
			`}`

			`std::shared_ptr<concurrencpp::thread_pool_executor> runtime::background_executor() const noexcept {`
			`return m_background_executor;`
			`}`

			`std::shared_ptr<concurrencpp::thread_executor> runtime::thread_executor() const noexcept {`
			`return m_thread_executor;`
			`}`

			`std::shared_ptr<concurrencpp::worker_thread_executor> runtime::make_worker_thread_executor() {`
			`auto executor = std::make_shared<worker_thread_executor>();`
			`m_registered_executors.register_executor(executor);`
			`return executor;`
			`}`

			`std::shared_ptr<concurrencpp::manual_executor> runtime::make_manual_executor() {`
			`auto executor = std::make_shared<concurrencpp::manual_executor>();`
			`m_registered_executors.register_executor(executor);`
			`return executor;`
			`}`

			`std::tuple<unsigned int, unsigned int, unsigned int> runtime::version() noexcept {`
			`return {details::consts::k_concurrencpp_version_major,`
			`details::consts::k_concurrencpp_version_minor,`
			`details::consts::k_concurrencpp_version_revision};`
			`}`