/* * Copyright (c) Facebook, Inc. and its affiliates. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include #include #include #include #include namespace folly { using monotonic_clock = std::chrono::steady_clock; /** * Calculates the duration of time intervals. Prefer this over directly using * monotonic clocks. It is very lightweight and provides convenient facilitles * to avoid common pitfalls. * * There are two type aliases that should be preferred over instantiating this * class directly: `coarse_stop_watch` and `stop_watch`. * * Arguments: * - Clock: the monotonic clock to use when calculating time intervals * - Duration: (optional) the duration to use when reporting elapsed time. * Defaults to the clock's duration. * * Example 1: * * coarse_stop_watch watch; * do_something(); * std::cout << "time elapsed: " << watch.elapsed().count() << std::endl; * * auto const ttl = 60_s; * if (watch.elapsed(ttl)) { * process_expiration(); * } * * Example 2: * * struct run_every_n_seconds { * using callback = std::function; * run_every_n_seconds(std::chrono::seconds period, callback action) * period_(period), * action_(std::move(action)) * { * // watch_ is correctly initialized to the current time * } * * void run() { * while (true) { * if (watch_.lap(period_)) { * action_(); * } * std::this_thread::yield(); * } * } * * private: * stop_watch<> watch_; * std::chrono::seconds period_; * callback action_; * }; * * @author: Marcelo Juchem */ template struct custom_stop_watch { using clock_type = Clock; using duration = Duration; using time_point = std::chrono::time_point; static_assert( std::ratio_less_equal< typename clock_type::duration::period, typename duration::period>::value, "clock must be at least as precise as the requested duration"); static_assert( Clock::is_steady, "only monotonic clocks should be used to track time intervals"); /** * Initializes the stop watch with the current time as its checkpoint. * * Example: * * stop_watch<> watch; * do_something(); * std::cout << "time elapsed: " << watch.elapsed() << std::endl; * * @author: Marcelo Juchem */ custom_stop_watch() : checkpoint_(clock_type::now()) {} /** * Initializes the stop watch with the given time as its checkpoint. * * NOTE: this constructor should be seldomly used. It is only provided so * that, in the rare occasions it is needed, one does not have to reimplement * the `custom_stop_watch` class. * * Example: * * custom_stop_watch watch(monotonic_clock::now()); * do_something(); * std::cout << "time elapsed: " << watch.elapsed() << std::endl; * * @author: Marcelo Juchem */ explicit custom_stop_watch(typename clock_type::time_point checkpoint) : checkpoint_(std::move(checkpoint)) {} /** * Updates the stop watch checkpoint to the current time. * * Example: * * struct some_resource { * // ... * * void on_reloaded() { * time_alive.reset(); * } * * void report() { * std::cout << "resource has been alive for " << time_alive.elapsed(); * } * * private: * stop_watch<> time_alive; * }; * * @author: Marcelo Juchem */ void reset() { checkpoint_ = clock_type::now(); } /** * Tells the elapsed time since the last update. * * The stop watch's checkpoint remains unchanged. * * Example: * * stop_watch<> watch; * do_something(); * std::cout << "time elapsed: " << watch.elapsed() << std::endl; * * @author: Marcelo Juchem */ duration elapsed() const { return std::chrono::duration_cast( clock_type::now() - checkpoint_); } /** * Tells whether the given duration has already elapsed since the last * checkpoint. * * Example: * * auto const ttl = 60_s; * stop_watch<> watch; * * do_something(); * * std::cout << "has the TTL expired? " std::boolalpha<< watch.elapsed(ttl); * * @author: Marcelo Juchem */ template bool elapsed(UDuration&& amount) const { return clock_type::now() - checkpoint_ >= amount; } /** * Tells the elapsed time since the last update, and updates the checkpoint * to the current time. * * Example: * * struct some_resource { * // ... * * void on_reloaded() { * auto const alive = time_alive.lap(); * std::cout << "resource reloaded after being alive for " << alive; * } * * private: * stop_watch<> time_alive; * }; * * @author: Marcelo Juchem */ duration lap() { auto lastCheckpoint = checkpoint_; checkpoint_ = clock_type::now(); return std::chrono::duration_cast(checkpoint_ - lastCheckpoint); } /** * Tells whether the given duration has already elapsed since the last * checkpoint. If so, update the checkpoint to the current time. If not, * the checkpoint remains unchanged. * * Example: * * void run_every_n_seconds( * std::chrono::seconds period, * std::function action * ) { * for (stop_watch<> watch;; ) { * if (watch.lap(period)) { * action(); * } * std::this_thread::yield(); * } * } * * @author: Marcelo Juchem */ template bool lap(UDuration&& amount) { auto now = clock_type::now(); if (now - checkpoint_ < amount) { return false; } checkpoint_ = now; return true; } /** * Returns the current checkpoint */ typename clock_type::time_point getCheckpoint() const { return checkpoint_; } private: typename clock_type::time_point checkpoint_; }; /** * A type alias for `custom_stop_watch` that uses a coarse monotonic clock as * the time source. Refer to the documentation of `custom_stop_watch` for full * documentation. * * Arguments: * - Duration: (optional) the duration to use when reporting elapsed time. * Defaults to the clock's duration. * * Example: * * coarse_stop_watch watch; * do_something(); * std::cout << "time elapsed: " << watch.elapsed().count() << std::endl; * * @author: Marcelo Juchem */ template using coarse_stop_watch = custom_stop_watch; /** * A type alias for `custom_stop_watch` that uses a monotonic clock as the time * source. Refer to the documentation of `custom_stop_watch` for full * documentation. * * Arguments: * - Duration: (optional) the duration to use when reporting elapsed time. * Defaults to the clock's duration. * * Example: * * stop_watch watch; * do_something(); * std::cout << "time elapsed: " << watch.elapsed().count() << std::endl; * * @author: Marcelo Juchem */ template using stop_watch = custom_stop_watch; } // namespace folly