#pragma once #include #include #include #include #include #include "common.hpp" #include "events/signal_emitter.hpp" #include "events/signal_fwd.hpp" #include "events/signal_receiver.hpp" #include "utils/concurrency.hpp" POLYBAR_NS // fwd namespace modules { struct module_interface; } enum class alignment : uint8_t; class config; class logger; using namespace signals::eventloop; using module_t = unique_ptr; using modulemap_t = std::map>; namespace chrono = std::chrono; using namespace std::chrono_literals; class eventloop : public signal_receiver { public: enum class event_type : uint8_t { NONE = 0, UPDATE, CHECK, INPUT, QUIT, }; struct event { uint8_t type{static_cast(event_type::NONE)}; bool flag{false}; }; template using queue_t = moodycamel::BlockingConcurrentQueue; public: using make_type = unique_ptr; static make_type make(); explicit eventloop(signal_emitter& emitter, const logger& logger, const config& config); ~eventloop(); void start(); void stop(); bool enqueue(event&& evt); bool enqueue(string&& input_data); void add_module(const alignment pos, module_t&& module); const modulemap_t& modules() const; size_t module_count() const; static event make_quit_evt(bool reload = false); static event make_update_evt(bool force = false); static event make_input_evt(); static event make_check_evt(); protected: void dispatch_modules(); void handle_inputdata(); bool on(const process_input& evt); bool on(const process_check& evt); bool on(const process_quit& evt); bool on(const enqueue_event& evt); bool on(const enqueue_quit& evt); bool on(const enqueue_update& evt); bool on(const enqueue_input& evt); bool on(const enqueue_check& evt); private: signal_emitter& m_sig; const logger& m_log; const config& m_conf; /** * @brief Event queue */ queue_t m_queue; /** * @brief Loaded modules */ modulemap_t m_modules; /** * @brief Flag to indicate current run state */ stateflag m_running; /** * @brief Time to wait for subsequent events */ chrono::milliseconds m_swallow_update{10ms}; /** * @brief Maximum amount of subsequent events to swallow within timeframe */ size_t m_swallow_limit{5U}; /** * @brief Time to throttle input events */ chrono::milliseconds m_swallow_input{30ms}; /** * @brief Time of last handled input event */ chrono::time_point m_lastinput; /** * @brief Mutex used to guard input data */ std::mutex m_inputlock; /** * @brief Input data */ string m_inputdata; }; POLYBAR_NS_END