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@ -91,7 +91,7 @@ uint8_t full_page[0xB4+1] = {0};
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// See page comment above, control alternates CA matrix/CB matrix
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// IC60 pcb uses only CA matrix.
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// Each byte is a control pin for 8 leds ordered 8-1
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const uint8_t is31_ic60_leds_mask[0x12] = {
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const uint8_t all_on_leds_mask[0x12] = {
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0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF, 0x00, 0xFF,
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0x00, 0xFF, 0x00, 0xFF, 0x00, 0x7F, 0x00, 0x00, 0x00
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};
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@ -171,10 +171,11 @@ static THD_FUNCTION(LEDthread, arg) {
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chRegSetThreadName("LEDthread");
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uint8_t i, page;
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uint8_t control_register_word[2] = {0};
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uint8_t led_control_reg[0x13] = {0};//led control register start address + 0x12 bytes
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//persistent status variables
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uint8_t backlight_status, lock_status, led_step_status, layer_status;
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uint8_t led_control_reg[0x13] = {0};//led control register start address + 0x12 bytes
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uint8_t backlight_status, led_step_status, layer_status;
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//mailbox variables
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uint8_t temp, msg_type, msg_led;
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@ -187,7 +188,6 @@ static THD_FUNCTION(LEDthread, arg) {
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// initialize persistent variables
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backlight_status = 0;
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lock_status = 0;//TODO: does keyboard remember locks?
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led_step_status = 4; //full brightness
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layer_status = 0;
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@ -207,34 +207,63 @@ layer_status = 0;
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//TODO: lighting key led on keypress
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break;
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//turn on/off/toggle single led, msg_led = row/col of led
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case OFF_LED:
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xprintf("OFF_LED\n");
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set_led_bit(7, control_register_word, msg_led, 0);
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is31_write_data (7, control_register_word, 0x02);
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if (layer_status > 0) {//check current led page to prevent double blink
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 7);
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}
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layer_status = 7;
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break;
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case ON_LED:
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xprintf("ON_LED\n");
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set_led_bit(7, control_register_word, msg_led, 1);
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is31_write_data (7, control_register_word, 0x02);
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if (layer_status > 7) {
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 7);
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}
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layer_status = 7;
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break;
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case TOGGLE_LED:
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//TODO: toggle existing indicator off, or let user do this, but write frame 7 for every led change
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//turn on single led, msg_led = row/col of led
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xprintf("TOGGLE_LED\n");
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set_led_bit(led_control_reg, msg_led, 1);
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set_led_bit(7, control_register_word, msg_led, 2);
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is31_write_data (7, led_control_reg, 0x12+1);
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is31_write_data (7, control_register_word, 0x02);
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if (layer_status > 7) {
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 7);
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}
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layer_status = 7;
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break;
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case TOGGLE_ALL:
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xprintf("TOGGLE_ALL\n");
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//msg_led = unused, TODO: consider using msg_led to toggle layer display
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is31_read_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, &temp);
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//if LED_ALL is on then toggle off, any other layer, turn on LED_ALL
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if(temp == 1) {
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 0);
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is31_read_register(0, 0x00, &temp);//if first byte is on, then toggle frame 1 off
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led_control_reg[0] = 0;
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if (temp==0) {
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xprintf("all leds on");
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__builtin_memcpy(led_control_reg+1, all_on_leds_mask, 0x12);
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} else {
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 1);
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xprintf("all leds off");
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__builtin_memset(led_control_reg+1, 0, 0x12);
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}
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is31_read_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, &temp);
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is31_write_data(0, led_control_reg, 0x13);
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if (layer_status > 0) {
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is31_write_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, 0);
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}
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layer_status=0;
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//TODO: Double blink when all on
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break;
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case TOGGLE_BACKLIGHT:
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//msg_led = unused
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//TODO: consider Frame 0 as on/off layer and toggle led control register here
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//TODO: need to test tracking of active layer with layer_state from qmk
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xprintf("TOGGLE_BACKLIGHT\n");
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backlight_status ^= 1;
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is31_read_register(IS31_FUNCTIONREG, IS31_REG_PICTDISP, &temp);
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@ -274,6 +303,7 @@ layer_status = 0;
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case MODE_BREATH:
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break;
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case STEP_BRIGHTNESS:
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//TEST: Step brightness code
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//pwm_levels[] bounds checking, loop through array
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//TODO: find a cleaner way to walk through this logic
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if (msg_led == 0 && led_step_status == 0) {
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@ -336,30 +366,42 @@ layer_status = 0;
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}
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/* ========================
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* led bit processing
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* ======================== */
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void set_led_bit (uint8_t *led_control_reg, uint8_t msg_led, uint8_t toggle_on) {
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uint8_t row_byte, column_bit;
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//msg_led tens column is pin#
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//ones column is bit position in 8-bit mask
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//first byte is register address 0x00
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row_byte = ((msg_led / 10) % 10 - 1 ) * 2 + 1;// A register is every other 8 bits
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column_bit = 1<<(msg_led % 10 - 1);
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if (toggle_on) {
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led_control_reg[row_byte] |= 1<<(column_bit);
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} else {
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led_control_reg[row_byte] &= ~1<<(column_bit);
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/* ==============================
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* led processing functions
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* ============================== */
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void set_led_bit (uint8_t page, uint8_t *led_control_reg, uint8_t led_addr, uint8_t action) {
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//returns 2 bytes led control register address and byte mask to write
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uint8_t control_reg_addr, column_bit, column_byte, temp;
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//first byte is led control register address 0x00
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//msg_led tens column is pin#, ones column is bit position in 8-bit mask
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control_reg_addr = ((led_addr / 10) % 10 - 1 ) * 0x02;// A-register is every other byte
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column_bit = 1<<(led_addr % 10 - 1);
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is31_read_register(page,control_reg_addr,&temp);//need to maintain status of leds in this row (1 byte)
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column_byte = temp;
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switch(action) {
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case 0:
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column_byte &= ~1<<(column_bit);
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break;
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case 1:
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column_byte |= 1<<(column_bit);
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break;
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case 2:
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column_byte ^= 1<<(column_bit);
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break;
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}
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led_control_reg[0] = control_reg_addr;
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led_control_reg[1] = column_byte;
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}
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//TODO: not toggling off correctly
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//TODO: confirm led_off page still has FF pwm for all
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void set_lock_leds(uint8_t lock_type, uint8_t lock_status) {
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uint8_t page;
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uint8_t led_addr, temp;
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uint8_t control_reg[2] = {0};//register address and led bits
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void set_lock_leds(uint8_t lock_type, uint8_t led_on) {
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uint8_t page, led_addr;
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uint8_t led_control_write[2] = {0};
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//TODO: consolidate control register to top level array vs. three scattered around
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switch(lock_type) {
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case USB_LED_NUM_LOCK:
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@ -384,44 +426,30 @@ void set_lock_leds(uint8_t lock_type, uint8_t lock_status) {
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break;
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#endif
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}
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xprintf("led_addr: %X\n", led_addr);
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chThdSleepMilliseconds(30);
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control_reg[0] = ((led_addr / 10) % 10 - 1 ) * 0x02;// A-register is every other byte
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xprintf("control_reg: %X\n", control_reg[0]);
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chThdSleepMilliseconds(30);
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for(page=BACKLIGHT_OFF_LOCK_LED_OFF; page<8; page++) { //set in led_controller.h
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is31_read_register(page,control_reg[0],&temp);//need to maintain status of leds in this row (1 byte)
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chThdSleepMilliseconds(30);
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xprintf("1lock byte: %X\n", temp);
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chThdSleepMilliseconds(30);
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if (lock_status) {
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temp |= 1<<(led_addr % 10 - 1);
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} else {
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temp &= ~1<<(led_addr % 10 - 1);
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}
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chThdSleepMilliseconds(30);
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xprintf("2lock byte: %X\n", temp);
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chThdSleepMilliseconds(30);
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control_reg[1] = temp;
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is31_write_data (page, control_reg, 0x02);
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//TODO: check if frame2 (or frame1, first byte all on), and ignore if true
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//also if BACKLIGHT_OFF_LOCK_LED_OFF set
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set_led_bit(page,led_control_write,led_addr,led_on);
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is31_write_data (page, led_control_write, 0x02);
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}
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}
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void write_led_page (uint8_t page, const uint8_t *led_array, uint8_t led_count) {
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uint8_t i;
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uint8_t row, col;
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uint8_t temp_control_reg[0x13] = {0};//led control register start address + 0x12 bytes
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uint8_t led_control_register[0x13] = {0};//led control register start address + 0x12 bytes
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for(i=0;i<led_count;i++){
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row = ((led_array[i] / 10) % 10 - 1 ) * 2 + 1;//includes 1 byte shift for led register 0x00 address
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col = led_array[i] % 10 - 1;
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temp_control_reg[row] |= 1<<(col);
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led_control_register[row] |= 1<<(col);
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}
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is31_write_data(page, temp_control_reg, 0x13);
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is31_write_data(page, led_control_register, 0x13);
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}
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/* =====================
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* hook into user keymap
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* ===================== */
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@ -458,8 +486,9 @@ void led_controller_init(void) {
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}
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//set all led bits on for Frame 2 LEDS_ALL
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//TODO: set all off in init
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full_page[0] = 0;
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__builtin_memcpy(full_page+1, is31_ic60_leds_mask, 0x12);
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__builtin_memset(full_page+1, 0, 0x12);
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is31_write_data(1, full_page, 1+0x12);
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/* enable breathing when the displayed page changes */
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