/* Ticker.h - esp32 library that calls functions periodically Copyright (c) 2017 Bert Melis. All rights reserved. Based on the original work of: Copyright (c) 2014 Ivan Grokhotkov. All rights reserved. The original version is part of the esp8266 core for Arduino environment. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef TICKER_H #define TICKER_H extern "C" { #include "esp_timer.h" } class Ticker { public: Ticker(); ~Ticker(); typedef void (*callback_t)(void); typedef void (*callback_with_arg_t)(void*); void attach(float seconds, callback_t callback) { _attach_ms(seconds * 1000, true, reinterpret_cast(callback), 0); } void attach_ms(uint32_t milliseconds, callback_t callback) { _attach_ms(milliseconds, true, reinterpret_cast(callback), 0); } template void attach(float seconds, void (*callback)(TArg), TArg arg) { static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach() callback argument size must be <= 4 bytes"); // C-cast serves two purposes: // static_cast for smaller integer types, // reinterpret_cast + const_cast for pointer types uint32_t arg32 = (uint32_t)arg; _attach_ms(seconds * 1000, true, reinterpret_cast(callback), arg32); } template void attach_ms(uint32_t milliseconds, void (*callback)(TArg), TArg arg) { static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach_ms() callback argument size must be <= 4 bytes"); uint32_t arg32 = (uint32_t)arg; _attach_ms(milliseconds, true, reinterpret_cast(callback), arg32); } void once(float seconds, callback_t callback) { _attach_ms(seconds * 1000, false, reinterpret_cast(callback), 0); } void once_ms(uint32_t milliseconds, callback_t callback) { _attach_ms(milliseconds, false, reinterpret_cast(callback), 0); } template void once(float seconds, void (*callback)(TArg), TArg arg) { static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach() callback argument size must be <= 4 bytes"); uint32_t arg32 = (uint32_t)(arg); _attach_ms(seconds * 1000, false, reinterpret_cast(callback), arg32); } template void once_ms(uint32_t milliseconds, void (*callback)(TArg), TArg arg) { static_assert(sizeof(TArg) <= sizeof(uint32_t), "attach_ms() callback argument size must be <= 4 bytes"); uint32_t arg32 = (uint32_t)(arg); _attach_ms(milliseconds, false, reinterpret_cast(callback), arg32); } void detach(); bool active(); protected: void _attach_ms(uint32_t milliseconds, bool repeat, callback_with_arg_t callback, uint32_t arg); protected: esp_timer_handle_t _timer; }; #endif // TICKER_H