/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2019-07-19 Magicoe The first version for LPC55S6x, refered github.com/Guozhanxin/RTT-BeepPlayer-pkg */ #include #include "rtconfig.h" #include "fsl_common.h" #include "fsl_iocon.h" #include "fsl_gpio.h" #include "fsl_inputmux.h" #include "drv_key.h" /**** Debug ****/ #define DBG_ENABLE #define DBG_SECTION_NAME "button" #define DBG_LEVEL DBG_INFO #define DBG_COLOR #include #define MY_BUTTON_CALL(func, argv) \ do { if ((func) != RT_NULL) func argv; } while (0) struct my_button_manage { rt_uint8_t num; rt_timer_t timer; struct my_button *button_list[MY_BUTTON_LIST_MAX]; }; static struct my_button_manage button_manage; int my_button_register(struct my_button *button) { if (button->press_logic_level == 0) { rt_pin_mode(button->pin, PIN_MODE_INPUT_PULLUP); } else { rt_pin_mode(button->pin, PIN_MODE_INPUT_PULLDOWN); } button->cnt = 0; button->event = BUTTON_EVENT_NONE; button_manage.button_list[button_manage.num++] = button; return 0; } static void my_button_scan(void *param) { rt_uint8_t i; rt_uint16_t cnt_old; for (i = 0; i < button_manage.num; i++) { cnt_old = button_manage.button_list[i]->cnt; if (rt_pin_read(button_manage.button_list[i]->pin) == button_manage.button_list[i]->press_logic_level) { button_manage.button_list[i]->cnt ++; if (button_manage.button_list[i]->cnt == MY_BUTTON_DOWN_MS / MY_BUTTON_SCAN_SPACE_MS) /* BUTTON_DOWN */ { LOG_D("BUTTON_DOWN"); button_manage.button_list[i]->event = BUTTON_EVENT_CLICK_DOWN; MY_BUTTON_CALL(button_manage.button_list[i]->cb, (button_manage.button_list[i])); } else if (button_manage.button_list[i]->cnt == MY_BUTTON_HOLD_MS / MY_BUTTON_SCAN_SPACE_MS) /* BUTTON_HOLD */ { LOG_D("BUTTON_HOLD"); button_manage.button_list[i]->event = BUTTON_EVENT_HOLD; MY_BUTTON_CALL(button_manage.button_list[i]->cb, (button_manage.button_list[i])); } else if (button_manage.button_list[i]->cnt > MY_BUTTON_HOLD_MS / MY_BUTTON_SCAN_SPACE_MS) /* BUTTON_HOLD_CYC */ { LOG_D("BUTTON_HOLD_CYC"); button_manage.button_list[i]->event = BUTTON_EVENT_HOLD_CYC; if (button_manage.button_list[i]->hold_cyc_period && button_manage.button_list[i]->cnt % (button_manage.button_list[i]->hold_cyc_period / MY_BUTTON_SCAN_SPACE_MS) == 0) MY_BUTTON_CALL(button_manage.button_list[i]->cb, (button_manage.button_list[i])); } } else { button_manage.button_list[i]->cnt = 0; if (cnt_old >= MY_BUTTON_DOWN_MS / MY_BUTTON_SCAN_SPACE_MS && cnt_old < MY_BUTTON_HOLD_MS / MY_BUTTON_SCAN_SPACE_MS) /* BUTTON_CLICK_UP */ { LOG_D("BUTTON_CLICK_UP"); button_manage.button_list[i]->event = BUTTON_EVENT_CLICK_UP; MY_BUTTON_CALL(button_manage.button_list[i]->cb, (button_manage.button_list[i])); } else if (cnt_old >= MY_BUTTON_HOLD_MS / MY_BUTTON_SCAN_SPACE_MS) /* BUTTON_HOLD_UP */ { LOG_D("BUTTON_HOLD_UP"); button_manage.button_list[i]->event = BUTTON_EVENT_HOLD_UP; MY_BUTTON_CALL(button_manage.button_list[i]->cb, (button_manage.button_list[i])); } } } } int my_button_start(void) { if (button_manage.timer != RT_NULL) return -1; /* Create Timer 1 */ button_manage.timer = rt_timer_create("timer1", /* Timer name is: timer1 */ my_button_scan, /* Timeout callback func */ RT_NULL, /* Timeout func entry */ RT_TICK_PER_SECOND * MY_BUTTON_SCAN_SPACE_MS / 1000, RT_TIMER_FLAG_PERIODIC | RT_TIMER_FLAG_SOFT_TIMER); /* Start Timer */ if (button_manage.timer != RT_NULL) rt_timer_start(button_manage.timer); return 0; } #ifdef RT_USING_FINSH #include #ifdef FINSH_USING_MSH #define KEY_PIN 51 #define KEY_PRESS_VALUE 0 void key_cb(struct my_button *button) { switch (button->event) { case BUTTON_EVENT_CLICK_UP: rt_kprintf("This is click up callback!\n"); break; case BUTTON_EVENT_HOLD_CYC: rt_kprintf("This is hold cyc callback!\n"); break; default: ; } } void key_test(rt_uint32_t led_num, rt_uint32_t value) { /* user app entry */ static struct my_button key = {0}; key.press_logic_level = KEY_PRESS_VALUE; key.hold_cyc_period = 100; key.cb = (my_button_callback)key_cb; key.pin = KEY_PIN; my_button_register(&key); my_button_start(); } MSH_CMD_EXPORT(key_test, key_test); #endif /* FINSH_USING_MSH */ #endif /* RT_USING_FINSH */