sled/3party/asyncplusplus/include/async++/scheduler.h

// Copyright (c) 2015 Amanieu d'Antras
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.

#ifndef ASYNCXX_H_
#error "Do not include this header directly, include <async++.h> instead."
#endif

namespace async {

// Improved version of std::hardware_concurrency:
// - It never returns 0, 1 is returned instead.
// - It is guaranteed to remain constant for the duration of the program.
LIBASYNC_EXPORT std::size_t hardware_concurrency() LIBASYNC_NOEXCEPT;

// Task handle used by a wait handler
class task_wait_handle {
    detail::task_base *handle;

    // Allow construction in wait_for_task()
    friend void detail::wait_for_task(detail::task_base *t);
    friend void detail::generic_wait_for_task(detail::task_base *wait_task);

    task_wait_handle(detail::task_base *t) : handle(t) {}

    // Execution function for use by wait handlers
    template<typename Func>
    struct wait_exec_func : private detail::func_base<Func> {
        template<typename F>
        explicit wait_exec_func(F &&f) : detail::func_base<Func>(std::forward<F>(f))
        {}

        void operator()(detail::task_base *)
        {
            // Just call the function directly, all this wrapper does is remove
            // the task_base* parameter.
            this->get_func()();
        }
    };

public:
    task_wait_handle() : handle(nullptr) {}

    // Check if the handle is valid
    explicit operator bool() const { return handle != nullptr; }

    // Check if the task has finished executing
    bool ready() const { return detail::is_finished(handle->state.load(std::memory_order_acquire)); }

    // Queue a function to be executed when the task has finished executing.
    template<typename Func>
    void on_finish(Func &&func)
    {
        // Make sure the function type is callable
        static_assert(detail::is_callable<Func()>::value, "Invalid function type passed to on_finish()");

        auto cont   = new detail::task_func<typename std::remove_reference<decltype(inline_scheduler())>::type,
                                          wait_exec_func<typename std::decay<Func>::type>,
                                          detail::fake_void>(std::forward<Func>(func));
        cont->sched = std::addressof(inline_scheduler());
        handle->add_continuation(inline_scheduler(), detail::task_ptr(cont));
    }
};

// Wait handler function prototype
typedef void (*wait_handler)(task_wait_handle t);

// Set a wait handler to control what a task does when it has "free time", which
// is when it is waiting for another task to complete. The wait handler can do
// other work, but should return when it detects that the task has completed.
// The previously installed handler is returned.
LIBASYNC_EXPORT wait_handler set_thread_wait_handler(wait_handler w) LIBASYNC_NOEXCEPT;

// Exception thrown if a task_run_handle is destroyed without being run
struct LIBASYNC_EXPORT_EXCEPTION task_not_executed {};

// Task handle used in scheduler, acts as a unique_ptr to a task object
class task_run_handle {
    detail::task_ptr handle;

    // Allow construction in schedule_task()
    template<typename Sched>
    friend void detail::schedule_task(Sched &sched, detail::task_ptr t);

    explicit task_run_handle(detail::task_ptr t) : handle(std::move(t)) {}

public:
    // Movable but not copyable
    task_run_handle() = default;

    task_run_handle(task_run_handle &&other) LIBASYNC_NOEXCEPT : handle(std::move(other.handle)) {}

    task_run_handle &operator=(task_run_handle &&other) LIBASYNC_NOEXCEPT
    {
        handle = std::move(other.handle);
        return *this;
    }

    // If the task is not executed, cancel it with an exception
    ~task_run_handle()
    {
        if (handle) handle->vtable->cancel(handle.get(), std::make_exception_ptr(task_not_executed()));
    }

    // Check if the handle is valid
    explicit operator bool() const { return handle != nullptr; }

    // Run the task and release the handle
    void run()
    {
        handle->vtable->run(handle.get());
        handle = nullptr;
    }

    // Run the task but run the given wait handler when waiting for a task,
    // instead of just sleeping.
    void run_with_wait_handler(wait_handler handler)
    {
        wait_handler old = set_thread_wait_handler(handler);
        run();
        set_thread_wait_handler(old);
    }

    // Conversion to and from void pointer. This allows the task handle to be
    // sent through C APIs which don't preserve types.
    void *to_void_ptr() { return handle.release(); }

    static task_run_handle from_void_ptr(void *ptr)
    {
        return task_run_handle(detail::task_ptr(static_cast<detail::task_base *>(ptr)));
    }
};

namespace detail {

// Schedule a task for execution using its scheduler
template<typename Sched>
void
schedule_task(Sched &sched, task_ptr t)
{
    static_assert(is_scheduler<Sched>::value, "Type is not a valid scheduler");
    sched.schedule(task_run_handle(std::move(t)));
}

// Inline scheduler implementation
inline void
inline_scheduler_impl::schedule(task_run_handle t)
{
    t.run();
}

}// namespace detail
}// namespace async
feat update 2024-03-27 23:16:26 +08:00			`// Copyright (c) 2015 Amanieu d'Antras`
			`//`
			`// Permission is hereby granted, free of charge, to any person obtaining a copy`
			`// of this software and associated documentation files (the "Software"), to deal`
			`// in the Software without restriction, including without limitation the rights`
			`// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell`
			`// copies of the Software, and to permit persons to whom the Software is`
			`// furnished to do so, subject to the following conditions:`
			`//`
			`// The above copyright notice and this permission notice shall be included in`
			`// all copies or substantial portions of the Software.`
			`//`
			`// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR`
			`// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,`
			`// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE`
			`// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER`
			`// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,`
			`// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN`
			`// THE SOFTWARE.`

			`#ifndef ASYNCXX_H_`
fix async redefined 2024-03-29 10:26:51 +08:00			`#error "Do not include this header directly, include <async++.h> instead."`
feat update 2024-03-27 23:16:26 +08:00			`#endif`

			`namespace async {`

			`// Improved version of std::hardware_concurrency:`
			`// - It never returns 0, 1 is returned instead.`
			`// - It is guaranteed to remain constant for the duration of the program.`
			`LIBASYNC_EXPORT std::size_t hardware_concurrency() LIBASYNC_NOEXCEPT;`

			`// Task handle used by a wait handler`
			`class task_wait_handle {`
fix async redefined 2024-03-29 10:26:51 +08:00			`detail::task_base *handle;`

			`// Allow construction in wait_for_task()`
			`friend void detail::wait_for_task(detail::task_base *t);`
			`friend void detail::generic_wait_for_task(detail::task_base *wait_task);`

			`task_wait_handle(detail::task_base *t) : handle(t) {}`

			`// Execution function for use by wait handlers`
			`template<typename Func>`
			`struct wait_exec_func : private detail::func_base<Func> {`
			`template<typename F>`
			`explicit wait_exec_func(F &&f) : detail::func_base<Func>(std::forward<F>(f))`
			`{}`

			`void operator()(detail::task_base *)`
			`{`
			`// Just call the function directly, all this wrapper does is remove`
			`// the task_base* parameter.`
			`this->get_func()();`
			`}`
			`};`
feat update 2024-03-27 23:16:26 +08:00
			`public:`
fix async redefined 2024-03-29 10:26:51 +08:00			`task_wait_handle() : handle(nullptr) {}`

			`// Check if the handle is valid`
			`explicit operator bool() const { return handle != nullptr; }`

			`// Check if the task has finished executing`
			`bool ready() const { return detail::is_finished(handle->state.load(std::memory_order_acquire)); }`

			`// Queue a function to be executed when the task has finished executing.`
			`template<typename Func>`
			`void on_finish(Func &&func)`
			`{`
			`// Make sure the function type is callable`
			`static_assert(detail::is_callable<Func()>::value, "Invalid function type passed to on_finish()");`

			`auto cont = new detail::task_func<typename std::remove_reference<decltype(inline_scheduler())>::type,`
			`wait_exec_func<typename std::decay<Func>::type>,`
			`detail::fake_void>(std::forward<Func>(func));`
			`cont->sched = std::addressof(inline_scheduler());`
			`handle->add_continuation(inline_scheduler(), detail::task_ptr(cont));`
			`}`
feat update 2024-03-27 23:16:26 +08:00			`};`

			`// Wait handler function prototype`
			`typedef void (*wait_handler)(task_wait_handle t);`

			`// Set a wait handler to control what a task does when it has "free time", which`
			`// is when it is waiting for another task to complete. The wait handler can do`
			`// other work, but should return when it detects that the task has completed.`
			`// The previously installed handler is returned.`
			`LIBASYNC_EXPORT wait_handler set_thread_wait_handler(wait_handler w) LIBASYNC_NOEXCEPT;`

			`// Exception thrown if a task_run_handle is destroyed without being run`
			`struct LIBASYNC_EXPORT_EXCEPTION task_not_executed {};`

			`// Task handle used in scheduler, acts as a unique_ptr to a task object`
			`class task_run_handle {`
fix async redefined 2024-03-29 10:26:51 +08:00			`detail::task_ptr handle;`

			`// Allow construction in schedule_task()`
			`template<typename Sched>`
			`friend void detail::schedule_task(Sched &sched, detail::task_ptr t);`
feat update 2024-03-27 23:16:26 +08:00
fix async redefined 2024-03-29 10:26:51 +08:00			`explicit task_run_handle(detail::task_ptr t) : handle(std::move(t)) {}`
feat update 2024-03-27 23:16:26 +08:00
			`public:`
fix async redefined 2024-03-29 10:26:51 +08:00			`// Movable but not copyable`
			`task_run_handle() = default;`

			`task_run_handle(task_run_handle &&other) LIBASYNC_NOEXCEPT : handle(std::move(other.handle)) {}`

			`task_run_handle &operator=(task_run_handle &&other) LIBASYNC_NOEXCEPT`
			`{`
			`handle = std::move(other.handle);`
			`return *this;`
			`}`

			`// If the task is not executed, cancel it with an exception`
			`~task_run_handle()`
			`{`
			`if (handle) handle->vtable->cancel(handle.get(), std::make_exception_ptr(task_not_executed()));`
			`}`

			`// Check if the handle is valid`
			`explicit operator bool() const { return handle != nullptr; }`

			`// Run the task and release the handle`
			`void run()`
			`{`
			`handle->vtable->run(handle.get());`
			`handle = nullptr;`
			`}`

			`// Run the task but run the given wait handler when waiting for a task,`
			`// instead of just sleeping.`
			`void run_with_wait_handler(wait_handler handler)`
			`{`
			`wait_handler old = set_thread_wait_handler(handler);`
			`run();`
			`set_thread_wait_handler(old);`
			`}`

			`// Conversion to and from void pointer. This allows the task handle to be`
			`// sent through C APIs which don't preserve types.`
			`void *to_void_ptr() { return handle.release(); }`

			`static task_run_handle from_void_ptr(void *ptr)`
			`{`
			`return task_run_handle(detail::task_ptr(static_cast<detail::task_base *>(ptr)));`
			`}`
feat update 2024-03-27 23:16:26 +08:00			`};`

			`namespace detail {`

			`// Schedule a task for execution using its scheduler`
			`template<typename Sched>`
fix async redefined 2024-03-29 10:26:51 +08:00			`void`
			`schedule_task(Sched &sched, task_ptr t)`
feat update 2024-03-27 23:16:26 +08:00			`{`
fix async redefined 2024-03-29 10:26:51 +08:00			`static_assert(is_scheduler<Sched>::value, "Type is not a valid scheduler");`
			`sched.schedule(task_run_handle(std::move(t)));`
feat update 2024-03-27 23:16:26 +08:00			`}`

			`// Inline scheduler implementation`
fix async redefined 2024-03-29 10:26:51 +08:00			`inline void`
			`inline_scheduler_impl::schedule(task_run_handle t)`
feat update 2024-03-27 23:16:26 +08:00			`{`
fix async redefined 2024-03-29 10:26:51 +08:00			`t.run();`
feat update 2024-03-27 23:16:26 +08:00			`}`

fix async redefined 2024-03-29 10:26:51 +08:00			`}// namespace detail`
			`}// namespace async`