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

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2024-04-09 06:45:18 +00:00
#include "concurrencpp/timers/timer.h"
#include "concurrencpp/timers/timer_queue.h"
#include "concurrencpp/timers/constants.h"
#include "concurrencpp/errors.h"
#include "concurrencpp/results/result.h"
#include "concurrencpp/executors/executor.h"
using concurrencpp::timer;
using concurrencpp::details::timer_state;
using concurrencpp::details::timer_state_base;
timer_state_base::timer_state_base(size_t due_time,
size_t frequency,
std::shared_ptr<concurrencpp::executor> executor,
std::weak_ptr<concurrencpp::timer_queue> timer_queue,
bool is_oneshot) noexcept :
m_timer_queue(std::move(timer_queue)),
m_executor(std::move(executor)), m_due_time(due_time), m_frequency(frequency), m_deadline(make_deadline(milliseconds(due_time))),
m_cancelled(false), m_is_oneshot(is_oneshot) {
assert(static_cast<bool>(m_executor));
}
void timer_state_base::fire() {
const auto frequency = m_frequency.load(std::memory_order_relaxed);
m_deadline = make_deadline(milliseconds(frequency));
assert(static_cast<bool>(m_executor));
m_executor->post([self = shared_from_this()]() mutable {
self->execute();
});
}
timer::timer(std::shared_ptr<timer_state_base> timer_impl) noexcept : m_state(std::move(timer_impl)) {}
timer::~timer() noexcept {
cancel();
}
void timer::throw_if_empty(const char* error_message) const {
if (static_cast<bool>(m_state)) {
return;
}
throw errors::empty_timer(error_message);
}
std::chrono::milliseconds timer::get_due_time() const {
throw_if_empty(details::consts::k_timer_empty_get_due_time_err_msg);
return std::chrono::milliseconds(m_state->get_due_time());
}
std::chrono::milliseconds timer::get_frequency() const {
throw_if_empty(details::consts::k_timer_empty_get_frequency_err_msg);
return std::chrono::milliseconds(m_state->get_frequency());
}
std::shared_ptr<concurrencpp::executor> timer::get_executor() const {
throw_if_empty(details::consts::k_timer_empty_get_executor_err_msg);
return m_state->get_executor();
}
std::weak_ptr<concurrencpp::timer_queue> timer::get_timer_queue() const {
throw_if_empty(details::consts::k_timer_empty_get_timer_queue_err_msg);
return m_state->get_timer_queue();
}
void timer::cancel() {
if (!static_cast<bool>(m_state)) {
return;
}
auto state = std::move(m_state);
state->cancel();
auto timer_queue = state->get_timer_queue().lock();
if (!static_cast<bool>(timer_queue)) {
return;
}
timer_queue->remove_internal_timer(std::move(state));
}
void timer::set_frequency(std::chrono::milliseconds new_frequency) {
throw_if_empty(details::consts::k_timer_empty_set_frequency_err_msg);
return m_state->set_new_frequency(new_frequency.count());
}
timer& timer::operator=(timer&& rhs) noexcept {
if (this == &rhs) {
return *this;
}
if (static_cast<bool>(*this)) {
cancel();
}
m_state = std::move(rhs.m_state);
return *this;
}