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HW_Lib/lib/key/key.cpp

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UP 按键扫描支持
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#include <malloc.h>
#include "key.h"
#define EVENT_CB(ev) if(key->cb[ev])key->cb[ev](key)
#define PRESS_REPEAT_MAX_NUM 15
static Key_t *head_key = NULL;
static void key_state_switch(Key_t *key);
UP 优化key库
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void key_init(Key_t *key, uint8_t key_id, uint8_t active_level, uint8_t(*read_pin)(uint8_t)) {
UP 按键扫描支持
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memset(key, 0, sizeof(Key_t));
key->event = (uint8_t) NONE_PRESS;
UP 优化key库
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key->hal_read_pin = read_pin;
UP 按键扫描支持
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key->key_level = !active_level;
key->active_level = active_level;
key->key_id = key_id;
}
UP 优化key库
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void key_attach(Key_t *key, PressEvent event, Key_Callback_t cb, bool start) {
UP 按键扫描支持
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// 如果事件类型为ALL_EVENT则将回调函数cb分别赋值给所有事件类型
if (event == KEY_ALL_EVENT) {
for (uint8_t i = KEY_PRESS_UP; i < number_of_event; i++) {
key->cb[i] = cb;
}
} else {
// 否则将回调函数cb赋值给指定的事件类型
key->cb[event] = cb;
}
UP 优化key库
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if (start)key_start(key);
UP 按键扫描支持
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}
PressEvent get_key_event(Key_t *key) {
return (PressEvent) (key->event);
}
static void key_state_switch(Key_t *key) {
// 读取按键的GPIO电平
UP 优化key库
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uint8_t read_gpio_level = key->hal_read_pin(key->key_id);
UP 按键扫描支持
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// 如果按键状态大于0则增加ticks计数
if ((key->state) > 0) key->ticks++;
// 按键去抖动处理
if (read_gpio_level != key->key_level) {
if (++(key->debounce_cnt) >= DEBOUNCE_TICKS) {
key->key_level = read_gpio_level;
key->debounce_cnt = 0;
}
} else {
key->debounce_cnt = 0;
}
// 状态机处理按键事件
switch (key->state) {
case 0:
if (key->key_level == key->active_level) {
key->event = (uint8_t) KEY_PRESS_DOWN;
EVENT_CB(KEY_PRESS_DOWN);
key->ticks = 0;
key->repeat = 1;
key->state = 1;
} else {
key->event = (uint8_t) NONE_PRESS;
}
break;
case 1:
if (key->key_level != key->active_level) {
key->event = (uint8_t) KEY_PRESS_UP;
EVENT_CB(KEY_PRESS_UP);
key->ticks = 0;
key->state = 2;
} else if (key->ticks > LONG_TICKS) {
key->event = (uint8_t) KEY_LONG_PRESS_START;
EVENT_CB(KEY_LONG_PRESS_START);
key->state = 5;
}
break;
case 2:
if (key->key_level == key->active_level) {
key->event = (uint8_t) KEY_PRESS_DOWN;
EVENT_CB(KEY_PRESS_DOWN);
if (key->repeat != PRESS_REPEAT_MAX_NUM) {
key->repeat++;
}
EVENT_CB(KEY_PRESS_REPEAT);
key->ticks = 0;
key->state = 3;
} else if (key->ticks > SHORT_TICKS) {
if (key->repeat == 1) {
key->event = (uint8_t) KEY_SINGLE_CLICK;
EVENT_CB(KEY_SINGLE_CLICK);
} else if (key->repeat == 2) {
key->event = (uint8_t) KEY_DOUBLE_CLICK;
EVENT_CB(KEY_DOUBLE_CLICK);
}
key->state = 0;
}
break;
case 3:
if (key->key_level != key->active_level) {
key->event = (uint8_t) KEY_PRESS_UP;
EVENT_CB(KEY_PRESS_UP);
if (key->ticks < SHORT_TICKS) {
key->ticks = 0;
key->state = 2;
} else {
key->state = 0;
}
} else if (key->ticks > SHORT_TICKS) {
key->state = 1;
}
break;
case 5:
if (key->key_level == key->active_level) {
key->event = (uint8_t) KEY_LONG_PRESS_HOLD;
EVENT_CB(KEY_LONG_PRESS_HOLD);
} else {
key->event = (uint8_t) KEY_PRESS_UP;
EVENT_CB(KEY_PRESS_UP);
key->state = 0;
}
break;
default:
key->state = 0;
break;
}
}
int key_start(Key_t *key) {
Key_t *target = head_key;
while (target) {
if (target == key) return -1;
target = target->next;
}
key->next = head_key;
head_key = key;
return 0;
}
void key_stop(Key_t *key) {
Key_t **curr;
for (curr = &head_key; *curr;) {
Key_t *entry = *curr;
if (entry == key) {
*curr = entry->next;
#if KEY_STOP_FREE
free(entry);
#endif
return;
} else {
curr = &entry->next;
}
}
}
void key_ticks(void) {
Key_t *target;
for (target = head_key; target; target = target->next) {
key_state_switch(target);
}
}