Move backlight to a separated bit to realize complex ledmap combinations
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0c5e2e8f22
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1c3b8f810f
@ -85,10 +85,10 @@ void keyboard_init(void)
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#endif
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#ifdef LEDMAP_ENABLE
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ledmap_led_init();
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#ifdef LEDMAP_IN_EEPROM_ENABLE
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ledmap_in_eeprom_init();
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#endif
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ledmap_init();
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#endif
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#ifdef BACKLIGHT_ENABLE
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108
common/ledmap.c
108
common/ledmap.c
@ -5,66 +5,80 @@
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#include "action_layer.h"
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#include "debug.h"
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static led_state_t led_state = 0;
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static led_state_t led_state_last = 0;
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static led_binding_t usb_led_binding = 0;
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static led_binding_t default_layer_binding = 0;
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static led_binding_t layer_binding = 0;
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static led_binding_t backlight_binding = 0;
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static void update_led_state(void);
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static void update_led_state(led_state_t state);
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void led_set(uint8_t usb_led)
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void ledmap_init(void)
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{
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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uint8_t code = ledmap_get_code(i);
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/*
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switch (code) {
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case LEDMAP_NUM_LOCK:
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(usb_led & (1 << USB_LED_NUM_LOCK)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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break;
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case LEDMAP_CAPS_LOCK:
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(usb_led & (1 << USB_LED_CAPS_LOCK)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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break;
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case LEDMAP_SCROLL_LOCK:
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(usb_led & (1 << USB_LED_SCROLL_LOCK)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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break;
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case LEDMAP_COMPOSE:
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(usb_led & (1 << USB_LED_COMPOSE)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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break;
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case LEDMAP_KANA:
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(usb_led & (1 << USB_LED_KANA)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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break;
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default:
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break;
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if (code & LEDMAP_BACKLIGHT) {
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LED_BIT_SET(backlight_binding, i);
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}
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*/
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code &= LEDMAP_MASK;
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if (code >= LEDMAP_DEFAULT_LAYER_0 && code <= LEDMAP_DEFAULT_LAYER_31) {
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LED_BIT_SET(default_layer_binding, i);
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}
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else if (code >= LEDMAP_LAYER_0 && code <= LEDMAP_LAYER_31) {
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LED_BIT_SET(layer_binding, i);
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}
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else if (code >= LEDMAP_NUM_LOCK && code <= LEDMAP_KANA) {
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LED_BIT_SET(usb_led_binding, i);
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}
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}
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ledmap_led_init();
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}
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void led_set(uint8_t usb_led)
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{
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if (usb_led_binding) {
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led_state_t led_state = led_state_last;
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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if (usb_led_binding & LED_BIT(i)) {
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uint8_t code = ledmap_get_code(i) & LEDMAP_MASK;
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for (uint8_t j = USB_LED_NUM_LOCK; j <= USB_LED_KANA; j++) {
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if (code - LEDMAP_NUM_LOCK == j) {
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(usb_led & (1 << j)) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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(usb_led & (1 << j)) ? LED_BIT_SET(led_state, i) : LED_BIT_CLEAR(led_state, i);
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}
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}
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}
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update_led_state();
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}
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update_led_state(led_state);
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}
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}
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#ifndef NO_ACTION_LAYER
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void default_layer_state_change(uint32_t state)
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{
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if (default_layer_binding) {
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led_state_t led_state = led_state_last;
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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uint8_t code = ledmap_get_code(i);
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if (code >= LEDMAP_DEFAULT_LAYER_0 && code < LEDMAP_DEFAULT_LAYER_31) {
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(state & (1UL << (code - LEDMAP_DEFAULT_LAYER_0))) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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if (default_layer_binding & LED_BIT(i)) {
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uint8_t code = ledmap_get_code(i) & LEDMAP_MASK;
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(state & (1UL << (code - LEDMAP_DEFAULT_LAYER_0))) ? LED_BIT_SET(led_state, i) : LED_BIT_CLEAR(led_state, i);
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}
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}
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update_led_state();
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update_led_state(led_state);
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}
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}
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void layer_state_change(uint32_t state)
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{
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if (layer_binding) {
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led_state_t led_state = led_state_last;
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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uint8_t code = ledmap_get_code(i);
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if (code >= LEDMAP_LAYER_0 && code < LEDMAP_LAYER_31) {
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(state & (1UL << (code - LEDMAP_LAYER_0))) ? LED_BIT_ON(led_state, i) : LED_BIT_OFF(led_state, i);
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if (layer_binding & LED_BIT(i)) {
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uint8_t code = ledmap_get_code(i) & LEDMAP_MASK;
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(state & (1UL << (code - LEDMAP_LAYER_0))) ? LED_BIT_SET(led_state, i) : LED_BIT_CLEAR(led_state, i);
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}
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}
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update_led_state();
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update_led_state(led_state);
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}
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}
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#endif
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@ -72,8 +86,7 @@ void layer_state_change(uint32_t state)
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void softpwm_led_on()
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{
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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uint8_t code = ledmap_get_code(i);
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if (code == LEDMAP_BACKLIGHT) {
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if (backlight_binding & LED_BIT(i)) {
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ledmap_led_on(i);
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}
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}
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@ -82,21 +95,34 @@ void softpwm_led_on()
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void softpwm_led_off()
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{
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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uint8_t code = ledmap_get_code(i);
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if (code == LEDMAP_BACKLIGHT) {
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if (backlight_binding & LED_BIT(i)) {
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ledmap_led_off(i);
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}
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}
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}
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void softpwm_led_state_change(uint8_t state)
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{
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if (state) {
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}
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else {
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led_state_t led_state = led_state_last;
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led_state_last &= ~(backlight_binding);
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update_led_state(led_state);
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}
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}
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#endif
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void update_led_state(void)
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void update_led_state(led_state_t state)
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{
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uint8_t diff = led_state_last ^ led_state;
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uint8_t diff = led_state_last ^ state;
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if (diff) {
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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if (softpwm_led_get_state() && (backlight_binding & LED_BIT(i))) {
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continue;
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}
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if (diff & LED_BIT(i)) {
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if (led_state & LED_BIT(i)) {
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if (state & LED_BIT(i)) {
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ledmap_led_on(i);
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}
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else {
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@ -104,6 +130,6 @@ void update_led_state(void)
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}
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}
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}
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led_state_last = led_state;
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led_state_last = state;
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}
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}
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@ -2,6 +2,7 @@
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#define LEDMAP_H
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#include "stdint.h"
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#include "stdbool.h"
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#if (LED_COUNT <= 8)
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typedef uint8_t led_pack_t;
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@ -14,6 +15,7 @@ typedef uint32_t led_pack_t;
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#endif
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typedef led_pack_t led_state_t;
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typedef led_pack_t led_binding_t;
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#if (LED_COUNT <= 16)
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#define LED_BIT(i) (1U<<(i))
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@ -23,8 +25,9 @@ typedef led_pack_t led_state_t;
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#error "LED_COUNT: invalid value"
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#endif
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#define LED_BIT_ON(state, i) ((state) |= LED_BIT(i))
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#define LED_BIT_OFF(state, i) ((state) &= ~LED_BIT(i))
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#define LED_BIT_SET(x, i) ((x) |= LED_BIT(i))
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#define LED_BIT_CLEAR(x, i) ((x) &= ~LED_BIT(i))
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#define LED_BIT_IS_SET(x, i) ((x) & LED_BIT(i))
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typedef enum {
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LEDMAP_DEFAULT_LAYER_0 = 0,
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@ -40,9 +43,21 @@ typedef enum {
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LEDMAP_UNCONFIGURED = 0xFF
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} ledmap_code_t;
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#define LEDMAP_MASK 0x7F
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typedef union {
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uint8_t raw;
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struct {
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uint8_t binding : 7;
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bool backlight : 1;
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};
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} ledmap_t;
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#define LEDMAP_DEFAULT_LAYER(x) (LEDMAP_DEFAULT_LAYER_0 + x)
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#define LEDMAP_LAYER(x) (LEDMAP_LAYER_0 + x)
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void ledmap_init(void);
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#ifdef LEDMAP_ENABLE
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uint8_t ledmap_get_code(uint8_t index);
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void ledmap_led_init(void);
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@ -13,7 +13,7 @@ void ledmap_in_eeprom_init(void)
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{
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for (uint8_t i = 0; i < LED_COUNT; i++) {
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ledmap[i] = eeprom_read_byte(EECONFIG_LEDMAP + i);
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ledmap[i] = LEDMAP_UNCONFIGURED;
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//ledmap[i] = LEDMAP_UNCONFIGURED;
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if (ledmap[i] == LEDMAP_UNCONFIGURED) {
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ledmap[i] = ledmap_get_code(i);
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eeprom_write_byte(EECONFIG_LEDMAP + i, ledmap[i]);
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@ -7,8 +7,9 @@
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#define SOFTPWM_LED_FREQ 64
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#define SOFTPWM_LED_TIMER_TOP F_CPU / (256 * SOFTPWM_LED_FREQ)
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uint8_t softpwm_ocr = 0;
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uint8_t softpwm_ocr_buff = 0;
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static uint8_t softpwm_state = 0;
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static uint8_t softpwm_ocr = 0;
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static uint8_t softpwm_ocr_buff = 0;
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void softpwm_led_init(void)
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{
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@ -49,6 +50,8 @@ void softpwm_led_enable(void)
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TIMSK1 |= (1<<OCIE1A);
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//dprintf("softpwm led on: %u\n", TIMSK1 & (1<<OCIE1A));
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#endif
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softpwm_state = 1;
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softpwm_led_state_change(softpwm_state);
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}
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void softpwm_led_disable(void)
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@ -61,6 +64,9 @@ void softpwm_led_disable(void)
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TIMSK1 &= ~(1<<OCIE1A);
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//dprintf("softpwm led off: %u\n", TIMSK1 & (1<<OCIE1A));
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#endif
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softpwm_state = 0;
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softpwm_led_off();
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softpwm_led_state_change(softpwm_state);
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}
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void softpwm_led_toggle(void)
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@ -73,12 +79,21 @@ void softpwm_led_toggle(void)
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TIMSK1 ^= (1<<OCIE1A);
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//dprintf("softpwm led toggle: %u\n", TIMSK1 & (1<<OCIE1A));
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#endif
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softpwm_state ^= 1;
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if (!softpwm_state) softpwm_led_off();
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softpwm_led_state_change(softpwm_state);
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}
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void softpwm_led_set(uint8_t val) {
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void softpwm_led_set(uint8_t val)
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{
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softpwm_ocr_buff = val;
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}
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inline uint8_t softpwm_led_get_state(void)
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{
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return softpwm_state;
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}
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#ifdef BREATHING_LED_ENABLE
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/* Breathing LED brighness(PWM On period) table
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@ -10,6 +10,8 @@ void softpwm_led_toggle(void);
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void softpwm_led_set(uint8_t val);
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void softpwm_led_on(void);
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void softpwm_led_off(void);
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uint8_t softpwm_led_get_state(void);
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void softpwm_led_state_change(uint8_t state);
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#ifdef BREATHING_LED_ENABLE
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#define breathing_led_init()
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@ -34,6 +36,8 @@ void breathing_led_set_duration(uint8_t dur);
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#define softpwm_led_set()
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#define softpwm_led_on()
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#define softpwm_led_off()
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#define softpwm_led_get_state()
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#define softpwm_led_state_change()
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#endif
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