Keyboard: keyboardio model01: rgbmatrix support (#3989)
* model01: implement RGB matrix feature
LEDs can still be individually controlled if this is switched off.
* model01: use fast banked LED setting commands
* model01: update default keymap to use RGB matrix
* model01: update RGB matrix support to match common_features.mk
* rgb_matrix: include <string.h>
This was missing after commit 4d5705ea6c
which introduces a use of memset().
* model01: make g_rgb_leds weak
This allows users to override which LEDs are configured as
modifiers, or tweak the x/y coordinates, should they so choose.
This commit is contained in:
parent
7d2d0c6795
commit
b382076ad1
@ -33,3 +33,6 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
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/* The scanners already debounce for us */
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/* The scanners already debounce for us */
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#define DEBOUNCING_DELAY 0
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#define DEBOUNCING_DELAY 0
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/* RGB matrix constants */
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#define DRIVER_LED_TOTAL 64
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@ -26,7 +26,7 @@ enum {
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const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
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const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
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[DEF] = LAYOUT(
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[DEF] = LAYOUT(
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RESET , KC_1 , KC_2 , KC_3 , KC_4 , KC_5 , KC_6 , KC_7 , KC_8 , KC_9 , KC_0 , TG(NUM),
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RESET , KC_1 , KC_2 , KC_3 , KC_4 , KC_5 , KC_6 , KC_7 , KC_8 , KC_9 , KC_0 , TG(NUM),
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KC_GRV , KC_Q , KC_W , KC_E , KC_R , KC_T , _______, _______, KC_Y , KC_U , KC_I , KC_O , KC_P , KC_EQL ,
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KC_GRV , KC_Q , KC_W , KC_E , KC_R , KC_T , RGB_MOD, _______, KC_Y , KC_U , KC_I , KC_O , KC_P , KC_EQL ,
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KC_PGUP, KC_A , KC_S , KC_D , KC_F , KC_G , KC_TAB , KC_ENT , KC_H , KC_J , KC_K , KC_L , KC_SCLN, KC_QUOT,
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KC_PGUP, KC_A , KC_S , KC_D , KC_F , KC_G , KC_TAB , KC_ENT , KC_H , KC_J , KC_K , KC_L , KC_SCLN, KC_QUOT,
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KC_PGDN, KC_Z , KC_X , KC_C , KC_V , KC_B , KC_ESC , _______, KC_N , KC_M , KC_COMM, KC_DOT , KC_SLSH, KC_MINS,
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KC_PGDN, KC_Z , KC_X , KC_C , KC_V , KC_B , KC_ESC , _______, KC_N , KC_M , KC_COMM, KC_DOT , KC_SLSH, KC_MINS,
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KC_LCTL, KC_RCTL,
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KC_LCTL, KC_RCTL,
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@ -48,7 +48,7 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
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),
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),
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[FUN] = LAYOUT(
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[FUN] = LAYOUT(
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_______, KC_F1 , KC_F2 , KC_F3 , KC_F4 , KC_F5 , KC_F6 , KC_F7 , KC_F8 , KC_F9 , KC_F10 , KC_F11 ,
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_______, KC_F1 , KC_F2 , KC_F3 , KC_F4 , KC_F5 , KC_F6 , KC_F7 , KC_F8 , KC_F9 , KC_F10 , KC_F11 ,
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KC_TAB , _______, KC_MS_U, _______, KC_BTN3, _______, _______, KC_MPRV, KC_MNXT, KC_LCBR, KC_RCBR, KC_LBRC, KC_RBRC, KC_F12 ,
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KC_TAB , _______, KC_MS_U, _______, KC_BTN3, _______, RGB_TOG, KC_MPRV, KC_MNXT, KC_LCBR, KC_RCBR, KC_LBRC, KC_RBRC, KC_F12 ,
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KC_HOME, KC_MS_L, KC_MS_D, KC_MS_R, KC_BTN1, _______, _______, KC_MPLY, KC_LEFT, KC_DOWN, KC_UP , KC_RGHT, _______, _______,
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KC_HOME, KC_MS_L, KC_MS_D, KC_MS_R, KC_BTN1, _______, _______, KC_MPLY, KC_LEFT, KC_DOWN, KC_UP , KC_RGHT, _______, _______,
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KC_END , KC_PSCR, KC_INS , _______, KC_BTN2, _______, _______, _______, KC_MUTE, KC_VOLD, KC_VOLU, _______, KC_BSLS, KC_PIPE,
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KC_END , KC_PSCR, KC_INS , _______, KC_BTN2, _______, _______, _______, KC_MUTE, KC_VOLD, KC_VOLU, _______, KC_BSLS, KC_PIPE,
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_______, _______,
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_______, _______,
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@ -73,21 +73,52 @@ LAYOUT(
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)
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)
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*/
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*/
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static void set_numpad_colours(int on, void (*write)(int, uint8_t, uint8_t, uint8_t)) {
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if (!on) {
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for (int i=44; i<=60; i++)
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write(i, 0, 0, 0);
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write(63, 0, 0, 0);
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return;
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}
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/* main number keys */
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for (int i=44; i<=47; i++)
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write(i, 255, 0, 0);
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for (int i=49; i<=54; i++)
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write(i, 255, 0, 0);
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/* accessory keys */
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write(48, 128, 128, 0);
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for (int i=55; i<=59; i++)
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write(i, 128, 128, 0);
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// enter
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write(63, 0, 128, 0);
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// num key
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write(60, 128, 0, 128);
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}
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#ifdef RGB_MATRIX_ENABLE
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/* the RGB matrix effects will overwrite the numpad indicator.
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* this handy mechanism allows to override the matrix effects.
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*/
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void rgb_matrix_indicators_user(void) {
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if (layer_state & (1<<NUM)) {
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set_numpad_colours(1, &rgb_matrix_set_color);
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}
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}
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#else /* no RGB matrix support */
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uint32_t layer_state_set_user(uint32_t state) {
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uint32_t layer_state_set_user(uint32_t state) {
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switch (biton32(state)) {
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if (state & (1<<NUM)) {
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case DEF:
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set_numpad_colours(1, &set_led_to);
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set_all_leds_to(0,0,0);
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} else {
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break;
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set_numpad_colours(0, &set_led_to);
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case NUM:
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/* highlight the numpad keys when numlock is on */
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for (int i=44; i<=60; i++) {
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set_led_to(i, 128,0,0);
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}
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set_led_to(63, 128, 0, 0);
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break;
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}
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}
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return state;
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return state;
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}
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}
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#endif
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/* vim: set ts=2 sw=2 et: */
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/* vim: set ts=2 sw=2 et: */
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@ -16,42 +16,154 @@
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#include <quantum.h>
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#include <quantum.h>
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#include <i2c_master.h>
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#include <i2c_master.h>
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#include <led_tables.h>
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#include <led_tables.h>
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#include <rgb_matrix.h>
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#include <string.h>
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#include "model01.h"
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#include "model01.h"
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#define I2C_TIMEOUT 1000
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#define I2C_TIMEOUT 1000
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#define LINCOR(i) pgm_read_byte(&CIE1931_CURVE[i])
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void set_all_leds_to(uint8_t r, uint8_t g, uint8_t b) {
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int set_all_leds_to_raw(uint8_t r, uint8_t g, uint8_t b) {
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uint8_t buf[] = {
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uint8_t buf[] = {
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TWI_CMD_LED_SET_ALL_TO,
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TWI_CMD_LED_SET_ALL_TO,
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b, g, r
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b, g, r
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};
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};
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int ret = 0;
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i2c_transmit(I2C_ADDR(LEFT), buf, sizeof(buf), I2C_TIMEOUT);
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ret |= i2c_transmit(I2C_ADDR(LEFT), buf, sizeof(buf), I2C_TIMEOUT);
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i2c_transmit(I2C_ADDR(RIGHT), buf, sizeof(buf), I2C_TIMEOUT);
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ret |= i2c_transmit(I2C_ADDR(RIGHT), buf, sizeof(buf), I2C_TIMEOUT);
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_delay_us(10);
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_delay_us(10);
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return ret;
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}
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}
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int set_all_leds_to(uint8_t r, uint8_t g, uint8_t b) {
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void set_led_to(int led, uint8_t r, uint8_t g, uint8_t b) {
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return set_all_leds_to_raw(LINCOR(r), LINCOR(g), LINCOR(b));
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}
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int set_led_to_raw(uint8_t led, uint8_t r, uint8_t g, uint8_t b) {
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uint8_t buf[] = {
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uint8_t buf[] = {
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TWI_CMD_LED_SET_ONE_TO,
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TWI_CMD_LED_SET_ONE_TO,
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led & 0x1f,
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led & 0x1f,
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b, g, r
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b, g, r
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};
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};
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int hand = (led >= 32) ? RIGHT : LEFT;
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int hand = (led >= 32) ? RIGHT : LEFT;
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int ret = i2c_transmit(I2C_ADDR(hand), buf, sizeof(buf), I2C_TIMEOUT);
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i2c_transmit(I2C_ADDR(hand), buf, sizeof(buf), I2C_TIMEOUT);
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_delay_us(10);
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_delay_us(10);
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return ret;
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}
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}
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int set_led_to(uint8_t led, uint8_t r, uint8_t g, uint8_t b) {
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#ifdef RGB_MATRIX_ENABLE
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return set_led_to_raw(led, LINCOR(r), LINCOR(g), LINCOR(b));
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__attribute__ ((weak))
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const rgb_led g_rgb_leds[DRIVER_LED_TOTAL] = {
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{{0x73}, { 3, 35}, 0},
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{{0x72}, { 0, 26}, 0},
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{{0x71}, { 0, 17}, 0},
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{{0x70}, { 0, 6}, 0},
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{{0x60}, { 14, 5}, 0},
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{{0x61}, { 15, 16}, 0},
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{{0x62}, { 16, 25}, 0},
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{{0x63}, { 17, 34}, 0},
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{{0x53}, { 31, 29}, 0},
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{{0x52}, { 31, 19}, 0},
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{{0x51}, { 30, 11}, 0},
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{{0x50}, { 30, 1}, 0},
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{{0x40}, { 45, 0}, 0},
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{{0x41}, { 45, 8}, 0},
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{{0x42}, { 46, 17}, 0},
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{{0x43}, { 46, 27}, 0},
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{{0x33}, { 60, 27}, 0},
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{{0x32}, { 60, 18}, 0},
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{{0x31}, { 60, 9}, 0},
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{{0x30}, { 60, 0}, 0},
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{{0x20}, { 74, 2}, 0},
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{{0x21}, { 74, 11}, 0},
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{{0x22}, { 75, 20}, 0},
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{{0x23}, { 74, 28}, 0},
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{{0x12}, { 89, 30}, 0},
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{{0x11}, { 89, 19}, 0},
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{{0x10}, { 89, 7}, 0},
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{{0x00}, { 70, 38}, 1},
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{{0x01}, { 82, 41}, 1},
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{{0x02}, { 93, 45}, 1},
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{{0x03}, {104, 50}, 1},
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{{0x13}, { 74, 64}, 1},
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{{0x67}, {149, 64}, 1},
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{{0x77}, {119, 50}, 1},
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{{0x76}, {130, 45}, 1},
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{{0x75}, {141, 41}, 1},
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{{0x74}, {153, 38}, 1},
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{{0x64}, {134, 7}, 0},
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{{0x65}, {134, 19}, 0},
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{{0x66}, {134, 30}, 0},
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{{0x57}, {149, 28}, 0},
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{{0x56}, {148, 20}, 0},
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{{0x55}, {149, 11}, 0},
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{{0x54}, {149, 2}, 0},
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{{0x44}, {163, 0}, 0},
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{{0x45}, {163, 9}, 0},
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{{0x46}, {163, 18}, 0},
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{{0x47}, {163, 27}, 0},
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{{0x37}, {177, 27}, 0},
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{{0x36}, {177, 17}, 0},
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{{0x35}, {178, 8}, 0},
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{{0x34}, {178, 0}, 0},
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{{0x24}, {193, 1}, 0},
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{{0x25}, {193, 11}, 0},
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{{0x26}, {192, 19}, 0},
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{{0x27}, {192, 29}, 0},
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{{0x17}, {206, 34}, 0},
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{{0x16}, {207, 25}, 0},
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{{0x15}, {208, 16}, 0},
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{{0x14}, {209, 5}, 0},
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{{0x04}, {224, 6}, 0},
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{{0x05}, {223, 17}, 0},
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{{0x06}, {223, 26}, 0},
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{{0x07}, {220, 35}, 0},
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};
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static struct {
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uint8_t b;
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uint8_t g;
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uint8_t r;
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} __attribute__((packed)) led_state[64];
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static void set_color(int index, uint8_t r, uint8_t g, uint8_t b) {
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led_state[index].r = r;
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led_state[index].g = g;
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led_state[index].b = b;
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}
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}
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static void set_color_all(uint8_t r, uint8_t g, uint8_t b) {
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for (int i=0; i<DRIVER_LED_TOTAL; i++)
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set_color(i, r, g, b);
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}
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static void init(void) {
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// Enable high current pathway to LEDs - this does violate the USB spec though! (1.6 amps...)
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DDRE |= _BV(6);
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PORTE &= ~_BV(6);
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// Overcurrent check input
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DDRB &= ~_BV(4);
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PORTB &= ~_BV(4);
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}
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static void flush(void) {
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uint8_t *bank_data = (uint8_t*)&led_state[0];
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uint8_t command[1 + 8*3];
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for (int hand=0; hand<2; hand++) {
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int addr = I2C_ADDR(hand);
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for (int bank=0; bank<4; bank++) {
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command[0] = TWI_CMD_LED_BASE + bank;
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memcpy(&command[1], bank_data, 8*3);
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i2c_transmit(addr, command, sizeof(command), I2C_TIMEOUT);
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_delay_us(100);
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bank_data += 8*3;
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}
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}
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}
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const rgb_matrix_driver_t rgb_matrix_driver = {
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.init = init,
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.flush = flush,
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.set_color = set_color,
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.set_color_all = set_color_all
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};
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#endif
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/* vim: set ts=2 sw=2 et: */
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/* vim: set ts=2 sw=2 et: */
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@ -16,10 +16,7 @@
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#pragma once
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#pragma once
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#include <quantum.h>
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#include <quantum.h>
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#include <rgb_matrix.h>
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int set_all_leds_to(uint8_t r, uint8_t g, uint8_t b);
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void set_all_leds_to(uint8_t r, uint8_t g, uint8_t b);
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int set_led_to(uint8_t led, uint8_t r, uint8_t g, uint8_t b);
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void set_led_to(int led, uint8_t r, uint8_t g, uint8_t b);
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/* Raw (gamma uncorrected) LED values */
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int set_all_leds_to_raw(uint8_t r, uint8_t g, uint8_t b);
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int set_led_to_raw(uint8_t led, uint8_t r, uint8_t g, uint8_t b);
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@ -59,4 +59,6 @@ MIDI_ENABLE = no # MIDI support (+2400 to 4200, depending on config)
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UNICODE_ENABLE = no # Unicode
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UNICODE_ENABLE = no # Unicode
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CUSTOM_MATRIX = yes
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CUSTOM_MATRIX = yes
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CIE1931_CURVE = yes
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# You can set RGB_MATRIX_ENABLE = no in your rules.mk to disable this and save the Flash
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RGB_MATRIX_ENABLE = custom # Enable RGB matrix effects (+10000).
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@ -21,6 +21,7 @@
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#include "progmem.h"
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#include "progmem.h"
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#include "config.h"
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#include "config.h"
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#include "eeprom.h"
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#include "eeprom.h"
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#include <string.h>
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#include <math.h>
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#include <math.h>
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rgb_config_t rgb_matrix_config;
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rgb_config_t rgb_matrix_config;
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